CN115719998A - Intelligent switch cabinet supervision method and system and storage medium - Google Patents
Intelligent switch cabinet supervision method and system and storage medium Download PDFInfo
- Publication number
- CN115719998A CN115719998A CN202211460645.4A CN202211460645A CN115719998A CN 115719998 A CN115719998 A CN 115719998A CN 202211460645 A CN202211460645 A CN 202211460645A CN 115719998 A CN115719998 A CN 115719998A
- Authority
- CN
- China
- Prior art keywords
- switch cabinet
- condensation
- monitoring information
- analyzing
- processing scheme
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Classifications
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y04—INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
- Y04S—SYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
- Y04S10/00—Systems supporting electrical power generation, transmission or distribution
- Y04S10/50—Systems or methods supporting the power network operation or management, involving a certain degree of interaction with the load-side end user applications
Landscapes
- Remote Monitoring And Control Of Power-Distribution Networks (AREA)
- Management, Administration, Business Operations System, And Electronic Commerce (AREA)
Abstract
The utility model relates to a supervision method, system and storage medium of intelligent switch cabinet relates to cubical switchboard technical field, has solved the inside condensation condition of cubical switchboard on the one hand and can not in time discover, is unfavorable for the timely processing of condensation, and on the other hand because the reason that the condensation condition produced has a lot of, and the staff is if there is not the treatment scheme to the reason, often can't the problem of the condensation of radical cure, and it includes: acquiring condensation monitoring information of a switch cabinet; analyzing and obtaining the switch cabinet condensation reason according to the corresponding relation between the switch cabinet condensation monitoring information and the switch cabinet condensation reason; analyzing and determining a treatment scheme according to the corresponding relation between the switch cabinet condensation reason and the treatment scheme; a processing scheme is executed. The application has the following effects: the solution efficiency and the success rate of the condensation problem are improved.
Description
Technical Field
The application relates to the technical field of switch cabinets, in particular to a supervision method, a supervision system and a storage medium of an intelligent switch cabinet.
Background
During the electricity cabinet operation, receive the influence of on-the-spot high humidity condition, the condensation phenomenon takes place easily, is unfavorable for the normal operating of cubical switchboard, and when the condensation refers to the steam concentration in the air and surpasss the maximum containing capacity of air, steam in the supersaturated air of steam can slowly condense and separate out, makes steam supersaturated air resume steam saturated air, if air temperature was greater than 0 ℃ this moment, object surface temperature is less than dew point temperature, then can produce the condensation on the object surface. In short, condensation is a phenomenon that when a high-temperature and high-humidity gas meets a low-temperature object, the gas reaches a dew point temperature and liquefies into a liquid on the surface of the low-temperature object.
The height of cabinet body inner wall surface temperature is the key that leads to the condensation, and when this value was less than dew point temperature, the drop of water condensation phenomenon that will produce, condensation promptly to regions such as rivers, coastal ambient air humidity is great, if ambient temperature changes to some extent, the cubical switchboard condensation phenomenon appears more easily, appears the action unreliable, the problem that became invalid, induces the incident when serious.
The current processing to the inside condensation phenomenon of cubical switchboard mainly relies on the staff initiative regularly to look over the inside condensation condition of cubical switchboard to remove the condensation according to the condensation condition and handle.
In view of the above-mentioned related art, the inventors found that there are the following drawbacks: on the one hand, the condensation condition inside the switch cabinet can not be found in time, and the condensation cannot be treated in time, on the other hand, the reason caused by the condensation condition is various, and the worker cannot cure the condensation frequently if the worker does not have a treatment scheme aiming at the reason.
Disclosure of Invention
In order to improve the solution efficiency and success rate of the condensation problem, the application provides a supervision method, a supervision system and a storage medium of an intelligent switch cabinet.
In a first aspect, the present application provides a supervision method for an intelligent switch cabinet, which adopts the following technical scheme:
a supervision method of an intelligent switch cabinet comprises the following steps:
acquiring condensation monitoring information of a switch cabinet;
analyzing and obtaining the switch cabinet condensation reason according to the corresponding relation between the switch cabinet condensation monitoring information and the switch cabinet condensation reason;
analyzing and determining a treatment scheme according to the corresponding relation between the switch cabinet condensation reason and the treatment scheme;
a processing scheme is executed.
By adopting the technical scheme, the reason of the condensation of the switch cabinet is determined by reverse analysis according to the acquired condensation monitoring information of the switch cabinet, and the treatment scheme corresponding to the reason of the condensation of the switch cabinet is executed, so that the condensation is treated more specifically, and the treatment success rate of the condensation is improved indirectly.
Optionally, according to the corresponding relationship between the switch cabinet condensation monitoring information and the switch cabinet condensation reason, analyzing and acquiring the switch cabinet condensation reason includes:
analyzing the acquired switch cabinet condensation monitoring information types, wherein the switch cabinet condensation monitoring information types comprise switch cabinet condensation direct monitoring information and switch cabinet condensation indirect monitoring information;
if the acquired switchgear condensation monitoring information type is switchgear condensation direct monitoring information, analyzing and acquiring the cause of the current switchgear condensation according to the corresponding relationship between the switchgear condensation direct monitoring information and the switchgear condensation cause;
if the acquired type of the switch cabinet condensation monitoring information is indirect switch cabinet condensation monitoring information, analyzing and acquiring the switch cabinet condensation reason according to the corresponding relation between the indirect switch cabinet condensation monitoring information and the switch cabinet condensation reason.
Through adopting above-mentioned technical scheme, fully consider that cubical switchboard condensation monitoring information type is different, the cubical switchboard condensation monitoring information that cubical switchboard condensation reason that it corresponds is different, after acquireing cubical switchboard condensation monitoring information type, seeks the mode that corresponds cubical switchboard condensation reason, and the at utmost has improved cubical switchboard condensation reason analysis's accuracy.
Optionally, the method further includes a step of analyzing the type of the acquired condensation monitoring information of the switch cabinet, specifically as follows:
if the acquired switch cabinet condensation monitoring information type comprises switch cabinet condensation indirect monitoring information and switch cabinet condensation direct monitoring information, selecting the switch cabinet condensation monitoring information type with higher accuracy according to the historical accuracy of the acquired switch cabinet condensation monitoring information type, and analyzing and acquiring the switch cabinet condensation reason according to the corresponding relation between the switch cabinet condensation monitoring information type with higher accuracy and the switch cabinet condensation reason.
Through adopting above-mentioned technical scheme, especially considered the cubical switchboard condensation monitoring information type that acquires and contained the indirect monitoring information of cubical switchboard condensation and the direct monitoring information's of cubical switchboard condensation condition, under this condition, can select the higher cubical switchboard condensation monitoring information type of rate of accuracy to come as this cubical switchboard condensation reason to further ensure cubical switchboard condensation reason analysis's accuracy.
Optionally, the method further includes a step of analyzing the type of the obtained condensation monitoring information of the switch cabinet, which specifically includes:
if the acquired switch cabinet condensation monitoring information types comprise switch cabinet condensation indirect monitoring information and switch cabinet condensation direct monitoring information, selecting the switch cabinet condensation monitoring information type with higher accuracy as the switch cabinet condensation monitoring information adopted at the corresponding position according to the historical accuracy of the switch cabinet condensation monitoring information types at different positions;
analyzing and obtaining condensation reasons of different positions of the switch cabinet according to the corresponding relation between the selected switch cabinet condensation monitoring information type and the switch cabinet condensation reason;
and selecting the reason with the highest ratio as the condensation reason of the switch cabinet according to the analyzed and obtained condensation reasons of different positions of the switch cabinet.
By adopting the technical scheme, the conditions that the acquired switch cabinet condensation monitoring information types contain indirect switch cabinet condensation monitoring information and direct switch cabinet condensation monitoring information are particularly considered, under the conditions, the switch cabinet condensation monitoring information types with higher accuracy at different positions can be selected to analyze the condensation reasons of different positions of the switch cabinet, and the reason with the highest ratio is selected as the condensation reason of the switch cabinet.
Optionally, the method further includes a step after executing the processing scheme, specifically as follows:
acquiring condensation monitoring information after the switch cabinet executes the processing scheme;
analyzing and determining a change efficiency interval of the parameter value corresponding to the condensation monitoring information according to the corresponding relation between the execution processing scheme and the change efficiency interval of the parameter value corresponding to the condensation monitoring information;
analyzing and acquiring change efficiency of parameter values corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme in real time according to the obtained condensation monitoring information after the switch cabinet executes the processing scheme and the switch cabinet condensation monitoring information;
if the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme is analyzed and obtained in real time and does not fall into the change efficiency interval of the parameter value corresponding to the condensation monitoring information, whether the type of the obtained switch cabinet condensation monitoring information contains indirect switch cabinet condensation monitoring information and direct switch cabinet condensation monitoring information or not is analyzed;
if so, replacing the acquired switch cabinet condensation monitoring information type, and analyzing and acquiring the condensation reasons of different positions of the switch cabinet according to the corresponding relation between the selected switch cabinet condensation monitoring information type and the switch cabinet condensation reason;
selecting the reason with the highest proportion as the condensation reason of the switch cabinet according to the analyzed and obtained condensation reasons of different positions of the switch cabinet, re-analyzing and determining a processing scheme, and executing the processing scheme;
if not, analyzing and determining the problem distribution probability influencing the processing scheme according to the corresponding relation between the processing scheme and the problem distribution probability influencing the processing scheme, and sending the problem distribution probability to the terminal held by the responsible personnel.
By adopting the technical scheme, whether the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme falls into the change efficiency interval of the parameter value corresponding to the condensation monitoring information is effectively analyzed, especially, the condition that the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme does not fall into the change efficiency interval of the parameter value corresponding to the condensation monitoring information is considered, under the condition, the corresponding processing scheme is formed according to the type condition contained in the acquired type of the condensation monitoring information of the switch cabinet, and the condensation problem is solved in time.
Optionally, if not, analyzing and determining the problem distribution probability affecting the processing scheme according to the corresponding relationship between the processing scheme and the problem distribution probability affecting the processing scheme includes:
analyzing and acquiring a difference value between the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme and the maximum change efficiency corresponding to the change efficiency interval of the parameter value corresponding to the condensation monitoring information;
and analyzing and determining the problem distribution probability influencing the processing scheme according to the corresponding relation between the difference value and the problem distribution probability influencing the processing scheme.
By adopting the technical scheme, the problem distribution probability of the processing scheme is effectively determined by fully considering the corresponding relation between the difference value of the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme and the maximum change efficiency corresponding to the change efficiency interval of the parameter value corresponding to the condensation monitoring information and the problem distribution probability.
Optionally, the method further includes the step of obtaining the condensation monitoring information of the switch cabinet in parallel, specifically as follows:
regularly starting a switch cabinet inspection device to inspect and obtain switch cabinet condensation monitoring information in a switch cabinet;
if the difference between the parameter value corresponding to the switch cabinet condensation monitoring information acquired by the inspection device through inspection and the parameter value corresponding to the original acquired switch cabinet condensation monitoring information is within the preset range, acquiring the average value of the parameters contained in the switch cabinet condensation monitoring information based on the parameter value corresponding to the switch cabinet condensation monitoring information acquired by the inspection device through inspection and the parameter value corresponding to the original acquired switch cabinet condensation monitoring information;
and if the difference between the parameter value corresponding to the switch cabinet condensation monitoring information acquired by the inspection device through inspection and the parameter value corresponding to the original acquired switch cabinet condensation monitoring information is out of the preset range, sending notification information to the terminal held by the responsible person.
Through adopting above-mentioned technical scheme, the inside monitoring to the condensation monitoring of full consideration cubical switchboard probably has the condition of deviation, can verify this condition through the setting of inspection device, and in time inform the person in charge when verifying the problem.
Optionally, regularly start cubical switchboard inspection device and patrol and examine and acquire cubical switchboard condensation monitoring information in the cubical switchboard and include:
acquiring the average number of times of condensation of all switch cabinets in a preset interval range of the switch cabinets in a preset time period;
analyzing and obtaining a ratio according to the average frequency and the preset frequency of condensation of all switch cabinets in a preset interval range of the switch cabinets in a preset time period;
re-analyzing and determining the inspection period of the switch cabinet according to the inspection period corresponding to the ratio and the preset times;
and according to the routing inspection period of the switch cabinet determined by reanalysis, periodically starting the switch cabinet routing inspection device to perform routing inspection to obtain switch cabinet condensation monitoring information in the switch cabinet.
By adopting the technical scheme, whether the recent condensation condition is frequent or not is determined by effectively combining the average number of condensation occurring in the preset time period of all switch cabinets in the switch cabinet preset interval range and the preset number of condensation occurring in the preset time period, and the inspection cycle of the switch cabinets is adjusted according to the frequent condition.
Optionally, the method further includes a step of sending the problem distribution probability affecting the processing scheme to a terminal held by a responsible person after analyzing and determining the problem distribution probability affecting the processing scheme according to the corresponding relationship between the processing scheme and the problem distribution probability affecting the processing scheme, where the step is specifically as follows:
acquiring the model of a switch cabinet and an arrangement scheme of positions of problematic condensation monitoring information after the switch cabinet executes a processing scheme, wherein the problematic condensation monitoring information refers to condensation monitoring information which does not fall into a variation efficiency interval of a parameter value corresponding to the condensation monitoring information, and the arrangement scheme of the positions of the problematic condensation monitoring information after the switch cabinet executes the processing scheme comprises the type, the number and the specific arrangement positions of adopted condensation monitoring devices;
analyzing and determining the arrangement schemes of the condensation monitoring devices at different positions inside and outside the switch cabinet according to the corresponding relation between the model of the switch cabinet and the arrangement schemes of the optimal condensation monitoring devices at different positions inside and outside the switch cabinet and the model of the switch cabinet, and defining the condensation monitoring devices for monitoring and acquiring condensation monitoring information, wherein the arrangement scheme of the optimal condensation monitoring devices comprises the types, the numbers and the specific arrangement positions of the adopted condensation monitoring devices;
comparing the layout scheme of the position of the problematic condensation monitoring information after the switch cabinet executes the processing scheme with the layout scheme of the optimal condensation monitoring device at different positions inside and outside the switch cabinet;
if the comparison is consistent, executing the subsequent steps;
if the comparison is inconsistent, the arrangement scheme of the position of the problematic condensation monitoring information after the switch cabinet executes the processing scheme is analyzed, the difference information between the arrangement scheme of the optimal condensation monitoring device at different positions inside and outside the switch cabinet is analyzed, and the difference information is used as notification information sent to a terminal held by a responsible person.
By adopting the technical scheme, an adjustment scheme can be effectively formed according to the current processing scheme and the optimal processing scheme, and the monitoring device can be conveniently adjusted by responsible personnel after the responsible personnel arrive at the site, so that subsequent problems are reduced.
In a second aspect, the present application provides a supervision system of an intelligent switch cabinet, which adopts the following technical scheme:
a supervisory system for intelligent switchgear, comprising:
an acquisition module to: acquiring condensation monitoring information of a switch cabinet;
a cause analysis module to: analyzing and obtaining the switch cabinet condensation reason according to the corresponding relation between the switch cabinet condensation monitoring information and the switch cabinet condensation reason;
a processing scheme determination module to: analyzing and determining a treatment scheme according to the corresponding relation between the switch cabinet condensation reason and the treatment scheme;
an execution module to: a processing scheme is executed.
By adopting the technical scheme, the condensation reason of the switch cabinet is determined by reverse analysis through the acquisition module and the reason analysis module according to the acquired condensation monitoring information of the switch cabinet, and the processing scheme corresponding to the condensation reason of the switch cabinet is executed through the processing scheme determination module and the execution module, so that the condensation is processed more specifically, and the processing success rate and the efficiency of the condensation are improved indirectly.
In a third aspect, the present application provides a computer storage medium, which adopts the following technical solutions:
a computer storage medium comprising a program which is capable of being loaded by a processor and which, when executed, carries out the method of supervision of an intelligent switchgear cabinet according to the first aspect.
By adopting the technical scheme, the reason of the condensation of the switch cabinet is reversely analyzed and determined according to the acquired condensation monitoring information of the switch cabinet and the processing scheme corresponding to the reason of the condensation of the switch cabinet is executed through calling of the program, so that the condensation is processed more specifically, and the processing success rate of the condensation is indirectly improved.
To sum up, the beneficial technical effect of this application does:
1. the condensation reason analysis can be carried out while the condensation phenomenon is monitored, and the solution is realized according to a reasonable treatment scheme planned according to the condensation reason, so that the success rate and the efficiency of solving the condensation problem are improved.
2. Can plan reasonable inspection device cycle of patrolling and examining according to the number of times condition that the condensation condition takes place to whether the monitoring of better verification condensation phenomenon goes wrong.
Drawings
Fig. 1 is a schematic flowchart of a supervision method for an intelligent switch cabinet according to an embodiment of the present application.
Fig. 2 is a schematic flow chart of one embodiment of step S200 in fig. 1.
Fig. 3 is a schematic specific flowchart of another embodiment of step S200 in fig. 1.
FIG. 4 is a schematic flow chart of another embodiment of the present application after execution of a processing scheme.
Fig. 5 is a schematic flowchart of analyzing and determining a probability of a problem distribution affecting a processing scheme according to a correspondence between the processing scheme and the probability of the problem distribution affecting the processing scheme according to another embodiment of the present application.
Fig. 6 is a schematic flow chart of another embodiment of the present application in parallel with obtaining information about condensation monitoring of a switchgear.
Fig. 7 is a schematic flow chart of regularly starting the switch cabinet inspection device to inspect and obtain switch cabinet condensation monitoring information in the switch cabinet according to another embodiment of the application.
Fig. 8 is a system block diagram of a supervision system of an intelligent switchgear disclosed in the present application.
In the figure, 1, an acquisition module; 2. a cause analysis module; 3. a processing scheme determination module; 4. and executing the module.
Detailed Description
The present application is described in further detail below with reference to the attached drawings.
Referring to fig. 1, a supervision method for an intelligent switch cabinet disclosed by the present application includes:
and S100, acquiring condensation monitoring information of the switch cabinet.
Wherein, the main effect of cubical switchboard is at power system's in-process that generates electricity, transmits electricity, distribution and electric energy conversion, opens and shuts, control and protection consumer, and cubical switchboard condensation monitoring information indicates the monitoring information who is used for judging the cubical switchboard condensation condition, and whether the acquirement of cubical switchboard condensation monitoring information has the condensation to produce like the condensation sensor through the condensation detection device of presetting in the cubical switchboard inside detecting the cubical switchboard.
And S200, analyzing and obtaining the condensation reason of the switch cabinet according to the corresponding relation between the condensation monitoring information of the switch cabinet and the condensation reason of the switch cabinet.
Wherein, cubical switchboard condensation reason mainly divide into external reason and inside reason, and the external reason is as follows: moisture in the surrounding environment enters the interior of the switch cabinet, and due to the influence of the moisture, the air in the cabinet is prevented from increasing in humidity, and condensation occurs. The internal reasons are as follows: depending on the operating environment of the interior of the switchgear cabinet, for example, the absolute humidity of the air is maintained at a certain value and is difficult to be reduced to a normal range, and in addition, the change of the ambient temperature causes condensation of the air in the cabinet.
The analysis and acquisition of the switch cabinet condensation reason can adopt the following modes: and taking the acquired switch cabinet condensation monitoring information as an inquiry object, and inquiring and acquiring the switch cabinet condensation reason from a preset database in which the corresponding relation between the switch cabinet condensation monitoring information and the switch cabinet condensation reason is stored.
For example, when the condensation sensor detects condensation, this is primarily an internal cause, and thus the analysis captures the cause as an internal cause.
And S300, analyzing and determining a treatment scheme according to the corresponding relation between the switch cabinet condensation reason and the treatment scheme.
Wherein, the analysis and determination of the processing scheme can adopt the following modes: and taking the analyzed and determined switch cabinet condensation reason as an inquiry object, and inquiring and acquiring the processing scheme from a preset database in which the corresponding relation between the switch cabinet condensation reason and the processing scheme is stored.
For example, when the condensation cause of the switch cabinet is an external cause, the processing scheme is as follows: the drying device who presets in the switch board is started and is carried out drying process to the site environment air, and the control air conditioner avoids directly blowing cold air to the cubical switchboard, otherwise can influence the rationality of cabinet inner wall temperature (the temperature at this place is on the low side, the condensation phenomenon of different degrees appears).
When the condensation source of the switch cabinet is an internal reason, the treatment scheme is as follows: a temperature and humidity controller preset in the power distribution cabinet is started to control the temperature and the humidity, and the absolute humidity of the field air can be indirectly regulated and controlled through temperature control. In the application of the temperature control method, related devices such as a vent, a heater and the like are mainly matched. Wherein a filter is installed at the vent to prevent a large amount of dust from being collected in the cabinet. When the relative humidity is higher (about 80%), starting a heating device to increase the air temperature; when the temperature is higher (about 40 ℃), the ventilation device is adopted to send fresh air into the cabinet body, and after regulation and control, the absolute humidity of the air inside and outside the cabinet body is ensured to reach a relatively balanced state, and the condition that the temperature in the cabinet is abnormally increased can be avoided.
The humidity control mainly sets a humidity threshold value according to requirements, the humidity monitoring is enhanced in actual operation, and after an actual measurement value exceeds the threshold value, a heater or a fan is started in time to regulate and control the relative humidity so as to avoid generating condensed water.
In step S400, a processing scheme is executed.
The implementation principle of the embodiment is as follows:
after acquiring cubical switchboard condensation monitoring information, can be effectively confirm this cubical switchboard condensation reason according to cubical switchboard condensation monitoring information analysis to the processing scheme that is fit for solving this cubical switchboard condensation reason is handled this cubical switchboard condensation condition in the matching.
In step S200 of fig. 1, the classification of the types of the switch cabinet condensation monitoring information is further considered, the switch cabinet condensation reasons determined by the different types of switch cabinet condensation monitoring information are different, and the condition that the obtained switch cabinet condensation monitoring information types simultaneously include the indirect switch cabinet condensation monitoring information and the direct switch cabinet condensation monitoring information is further considered, so that the switch cabinet condensation reasons need to be further analyzed and obtained, which is specifically described with reference to the embodiment shown in fig. 2.
Referring to fig. 2, according to the corresponding relationship between the switch cabinet condensation monitoring information and the switch cabinet condensation reason, analyzing and acquiring the switch cabinet condensation reason includes:
and step S210, analyzing the acquired type of the condensation monitoring information of the switch cabinet.
Wherein, cubical switchboard condensation monitoring information type includes cubical switchboard condensation direct monitoring information and cubical switchboard condensation indirect monitoring information, and wherein, cubical switchboard condensation direct monitoring information indicates can monitor and acquire the information that can directly judge the cubical switchboard condensation, and for example the image information of condensation is cubical switchboard condensation direct monitoring information promptly, and for example the condensation that the condensation sensor detected is cubical switchboard condensation direct monitoring information promptly again.
The indirect monitoring information of cubical switchboard condensation indicates that can indirect monitoring acquire the information that can directly judge the cubical switchboard condensation, for example, can detect the degree of judging whether the condition of outside entering moisture reaches the condensation condition in the easy formation cabinet through setting up the humidity detection device that probably receives all ring edge borders moisture entering position department in the cubical switchboard, comes indirect judgement cubical switchboard whether to have the condensation to produce.
For example, the moisture condition detected by the moisture detection device preset at the cable trench position can be regarded as indirect monitoring information of the switch cabinet condensation, it needs to be explained that the condensation generated by external reasons is influenced by the moisture permeating into the switch cabinet at the cable trench position to a great extent, and the indirect detection of the condensation phenomenon can be realized by adding the corresponding detection device at the position where the switch cabinet easily enters the moisture according to the needs.
Step S220, if the obtained switch cabinet condensation monitoring information type is switch cabinet condensation direct monitoring information, analyzing and obtaining the switch cabinet condensation reason according to the corresponding relation between the switch cabinet condensation direct monitoring information and the switch cabinet condensation reason.
The analysis of the switch cabinet condensation reason is as follows: and taking the obtained direct monitoring information of the switch cabinet condensation as an inquiry object, and inquiring and obtaining the reason of the switch cabinet condensation from a preset database in which the corresponding relation between the direct monitoring information of the switch cabinet condensation and the reason of the switch cabinet condensation is stored.
What need to explain is that the cubical switchboard condensation reason that single cubical switchboard condensation direct monitoring information corresponds generally is interior reason because there is not cubical switchboard condensation indirect monitoring information to explain generally not have the humidity among the all ring border to get into inside the switch board.
Step S230, if the obtained switch cabinet condensation monitoring information type is the switch cabinet condensation indirect monitoring information, analyzing and obtaining the switch cabinet condensation reason according to the corresponding relationship between the switch cabinet condensation indirect monitoring information and the switch cabinet condensation reason.
The analysis of the switch cabinet condensation reason is as follows: and taking the acquired indirect monitoring information of the switch cabinet condensation as an inquiry object, and inquiring and acquiring the reason of the switch cabinet condensation from a preset database in which the corresponding relation between the indirect monitoring information of the switch cabinet condensation and the reason of the switch cabinet condensation is stored.
It should be noted that the reason for the switch cabinet condensation corresponding to the indirect switch cabinet condensation monitoring information is generally an external reason, and because no direct switch cabinet condensation monitoring information indicates that the internal temporary condensation phenomenon is not yet obvious, the direct monitoring information cannot effectively judge the condensation phenomenon.
Step S240, if the obtained switch cabinet condensation monitoring information type includes switch cabinet condensation indirect monitoring information and switch cabinet condensation direct monitoring information, selecting the switch cabinet condensation monitoring information type with higher accuracy according to the historical accuracy of the obtained switch cabinet condensation monitoring information type, and analyzing and obtaining the switch cabinet condensation reason according to the corresponding relationship between the switch cabinet condensation monitoring information type with higher accuracy and the switch cabinet condensation reason.
The acquired historical accuracy of the switch cabinet condensation monitoring information type can be acquired by inquiring a preset database in which the historical accuracy of the switch cabinet condensation monitoring information type is stored, and the switch cabinet condensation monitoring information type with higher accuracy is selected as follows: after historical accuracy rates of indirect monitoring information of the switch cabinet condensation and direct monitoring information of the switch cabinet condensation are obtained, the switch cabinet condensation monitoring information type with higher accuracy rate is selected, and the switch cabinet condensation monitoring information type with higher accuracy rate is the switch cabinet condensation monitoring information type with higher accuracy rate.
For example, assuming that the historical accuracy of the indirect monitoring information of the switch cabinet condensation is 96% and the historical accuracy of the direct monitoring information of the switch cabinet condensation is 98%, the direct monitoring information of the switch cabinet condensation is selected as the selected type of the switch cabinet condensation monitoring information with higher accuracy.
The implementation principle of the embodiment is as follows:
the method comprises the steps of firstly analyzing and determining the type of the condensation monitoring information of the switch cabinet, matching the condensation reason of the switch cabinet according to the situation of the type of the condensation monitoring information of the switch cabinet, and especially considering the situation that the type of the obtained condensation monitoring information of the switch cabinet comprises indirect monitoring information of the condensation of the switch cabinet and direct monitoring information of the condensation of the switch cabinet, selecting the type of the condensation monitoring information of the switch cabinet with higher accuracy under the situation to analyze and obtain the condensation reason of the switch cabinet.
In step S200 of fig. 1, the classification of the types of the switch cabinet condensation monitoring information is further considered, the switch cabinet condensation reasons determined by the different types of switch cabinet condensation monitoring information are different, and the situation that the obtained switch cabinet condensation monitoring information type includes more than one position of the switch cabinet condensation indirect monitoring information and the switch cabinet condensation direct monitoring information at the same time is also considered, so that the switch cabinet condensation reason needs to be further analyzed and obtained, which is specifically described with reference to the embodiment shown in fig. 3.
Referring to fig. 3, according to the corresponding relationship between the switch cabinet condensation monitoring information and the switch cabinet condensation reason, analyzing and acquiring the switch cabinet condensation reason includes:
and step S210, analyzing the acquired switch cabinet condensation monitoring information types, wherein the switch cabinet condensation monitoring information types comprise switch cabinet condensation direct monitoring information and switch cabinet condensation indirect monitoring information.
Step S220, if the obtained switch cabinet condensation monitoring information type is switch cabinet condensation direct monitoring information, analyzing and obtaining the switch cabinet condensation reason according to the corresponding relation between the switch cabinet condensation direct monitoring information and the switch cabinet condensation reason.
Step S230, if the obtained switch cabinet condensation monitoring information type is the switch cabinet condensation indirect monitoring information, analyzing and obtaining the switch cabinet condensation reason according to the corresponding relationship between the switch cabinet condensation indirect monitoring information and the switch cabinet condensation reason.
And S2A0, if the acquired switch cabinet condensation monitoring information types comprise switch cabinet condensation indirect monitoring information and switch cabinet condensation direct monitoring information, selecting the switch cabinet condensation monitoring information types with higher accuracy as the switch cabinet condensation monitoring information adopted at the corresponding positions according to the historical accuracy of the switch cabinet condensation monitoring information types at different positions.
The historical accuracy rates of the switch cabinet condensation monitoring information types at different positions can be obtained by inquiring from a preset database in which the historical accuracy rates of the switch cabinet condensation monitoring information types at different positions are stored, and the switch cabinet condensation monitoring information types with higher accuracy rates are selected as follows: after acquiring the historical accuracy of the indirect switch cabinet condensation monitoring information and the direct switch cabinet condensation monitoring information at different positions, selecting the switch cabinet condensation monitoring information type with higher accuracy, namely the switch cabinet condensation monitoring information adopted at the corresponding position.
For example, assuming that the historical accuracy of the indirect monitoring information of the switch cabinet condensation at the same position is 99% and the historical accuracy of the direct monitoring information of the switch cabinet condensation is 98%, the indirect monitoring information of the switch cabinet condensation is selected as the switch cabinet condensation monitoring information type with higher accuracy selected by the corresponding position.
And S2B0, analyzing and obtaining the condensation reasons of different positions of the switch cabinet according to the corresponding relation between the selected switch cabinet condensation monitoring information type and the switch cabinet condensation reason.
The analysis of the condensation reasons of different positions of the switch cabinet obtains the following results: and taking the selected switch cabinet condensation monitoring information type as an inquiry object, and inquiring and acquiring the information from a preset database in which the corresponding relation between the switch cabinet condensation monitoring information type and the switch cabinet condensation reason is stored.
And S2C0, selecting the reason with the highest ratio as the condensation reason of the switch cabinet according to the analyzed and obtained condensation reasons of different positions of the switch cabinet.
The reason of the highest proportion is selected as the reason of the condensation of the switch cabinet as follows: and (4) counting the condensation reasons at each position, analyzing the occurrence frequency of the same condensation reason, and selecting the condensation reason with the most occurrence frequency as the reason with the highest proportion.
The implementation principle of the embodiment is as follows:
the method comprises the steps of analyzing and determining the type of the switch cabinet condensation monitoring information, matching the switch cabinet condensation reason according to the condition of the type of the switch cabinet condensation monitoring information, especially considering the condition that the obtained type of the switch cabinet condensation monitoring information contains indirect switch cabinet condensation monitoring information and direct switch cabinet condensation monitoring information, analyzing the condensation reasons of different positions of the switch cabinet according to the switch cabinet condensation monitoring information types with higher accuracy of different positions under the condition, and selecting the condensation reason with the highest proportion as the switch cabinet condensation reason.
After step S400 of fig. 1, considering whether the condensation of the switch cabinet is relieved as expected after the execution of the processing scheme, further analysis and judgment on the condensation of the switch cabinet after the execution of the processing scheme are required, and the detailed description is specifically made with reference to the embodiment shown in fig. 4.
Referring to fig. 4, the supervision method for the intelligent switch cabinet further includes a step after executing the processing scheme, specifically as follows:
and step S500, acquiring condensation monitoring information after the switch cabinet executes the processing scheme.
The method comprises the following steps of obtaining condensation monitoring information after the switch cabinet executes a processing scheme as follows: the condensation monitoring information is acquired by carrying out secondary detection on the condensation through a detection device used for monitoring the condensation in a preset switch cabinet.
And step S600, analyzing and determining the change efficiency interval of the parameter value corresponding to the condensation monitoring information according to the corresponding relation between the execution processing scheme and the change efficiency interval of the parameter value corresponding to the condensation monitoring information.
The analysis and determination of the change efficiency interval of the parameter value corresponding to the condensation monitoring information can be obtained in the following way: and taking the executed processing scheme as a query object, and querying and acquiring the data from a preset database which stores the corresponding relation between the executed processing scheme and the change efficiency interval of the parameter value corresponding to the condensation monitoring information.
And step S700, analyzing and acquiring the change efficiency of the parameter values corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme in real time according to the obtained condensation monitoring information after the switch cabinet executes the processing scheme and the switch cabinet condensation monitoring information.
The real-time analysis of the change efficiency of the parameter values corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme is as follows: the method comprises the steps of firstly obtaining condensation monitoring information before a switch cabinet executes a processing scheme and condensation monitoring information after the switch cabinet executes the processing scheme, analyzing and obtaining parameter differences corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme, and analyzing and determining the change efficiency of the parameter values corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme according to the parameter differences corresponding to the condensation monitoring information and the time for executing the processing scheme.
For example, if the condensation detection information monitors that the coverage of the condensation phenomenon is 0.1 square meter and the time for executing the processing scheme is 5 minutes, the change efficiency of the parameter value corresponding to the condensation detection information is 0.02 square meter/minute.
Step S800, if the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme is analyzed and acquired in real time and does not fall into the change efficiency interval of the parameter value corresponding to the condensation monitoring information, whether the type of the acquired switch cabinet condensation monitoring information contains indirect switch cabinet condensation monitoring information and direct switch cabinet condensation monitoring information is analyzed. If yes, go to step S900; if not, go to step SB00.
And S900, replacing the acquired switch cabinet condensation monitoring information types, and analyzing and acquiring the condensation reasons of different positions of the switch cabinet according to the corresponding relation between the selected switch cabinet condensation monitoring information types and the switch cabinet condensation reasons.
The analysis of the condensation reasons of different positions of the switch cabinet obtains the following results: and taking the replaced switch cabinet condensation monitoring information type as an inquiry object, and inquiring and acquiring the condensation reasons of different positions of the switch cabinet from a preset database in which the corresponding relation between the switch cabinet condensation monitoring information type and the switch cabinet condensation reasons is stored.
And step SA00, selecting the reason with the highest proportion as the condensation reason of the switch cabinet according to the analyzed and obtained condensation reasons of different positions of the switch cabinet, re-analyzing and determining a treatment scheme, and executing the treatment scheme.
The reason for the highest ratio is selected as the reason for the condensation of the switch cabinet at this time as follows: and (4) counting the condensation reasons at each position, analyzing the occurrence frequency of the same condensation reason, and selecting the condensation reason with the most occurrence frequency as the reason with the highest proportion.
And step SB00, analyzing and determining the problem distribution probability influencing the processing scheme according to the corresponding relation between the processing scheme and the problem distribution probability influencing the processing scheme, and sending the problem distribution probability influencing the processing scheme to the terminal held by a responsible person.
The corresponding relation between the processing scheme and the problem distribution probability influencing the processing scheme can be obtained by inquiring a preset database in which the corresponding relation between the processing scheme and the problem distribution probability influencing the processing scheme is stored; the analysis of the probability of the problem distribution affecting the treatment solution is determined as follows: and taking the processing scheme as a query object, and querying a preset database which stores the corresponding relation between the processing scheme and the problem distribution probability influencing the processing scheme to acquire the problem distribution probability influencing the processing scheme.
Taking a processing scheme as an example of a temperature and humidity controller, the problems affecting the processing scheme include that a temperature and humidity sensor fails to cause a problem in detection precision and external moisture enters the inside of the switch cabinet.
The terminal held by the responsible person can be a mobile phone, a computer or other communicable terminals.
The implementation principle of the embodiment is as follows:
and performing secondary verification on the condensation monitoring information after the switch cabinet executes the processing scheme, mainly verifying whether the change efficiency of the condensation monitoring information is as expected or not, especially analyzing the problem distribution probability under the condition that the change efficiency is lower than expected, and timely notifying responsible personnel.
In step SB00 of fig. 4, it is further considered that the degree of the change efficiency of the condensation detection information lower than expected is associated with the problem distribution probability affecting the processing recipe, and further analysis of the problem distribution probability affecting the processing recipe is required, which is described in detail with reference to the embodiment shown in fig. 5.
Referring to fig. 5, analyzing and determining the probability of the problem distribution affecting the processing scheme according to the correspondence between the processing scheme and the probability of the problem distribution affecting the processing scheme includes:
and step SB10, analyzing and obtaining a difference value between the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme and the maximum change efficiency corresponding to the change efficiency interval of the parameter value corresponding to the condensation monitoring information.
The maximum change efficiency corresponding to the change efficiency interval of the parameter value corresponding to the condensation monitoring information is the maximum value of the change efficiency interval of the parameter value corresponding to the condensation monitoring information.
The analysis and calculation of the difference value between the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme and the maximum change efficiency corresponding to the change efficiency interval of the parameter value corresponding to the condensation monitoring information are as follows:
and taking the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme as a subtracted number, taking the maximum change efficiency corresponding to the change efficiency interval of the parameter value corresponding to the condensation monitoring information as a subtracted number, and taking the difference value of the two as the difference value between the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme and the maximum change efficiency corresponding to the change efficiency interval of the parameter value corresponding to the condensation monitoring information.
And step SB20, analyzing and determining the problem distribution probability influencing the processing scheme according to the corresponding relation between the difference value and the problem distribution probability influencing the processing scheme.
The analysis and determination of the problem distribution probability affecting the processing scheme may adopt the following mode: and inquiring and acquiring the problem distribution probability influencing the processing scheme from a preset database storing the corresponding relation between the difference and the problem distribution probability influencing the processing scheme by taking the difference as an inquiry object.
The implementation principle of the embodiment is as follows:
whether the change efficiency of the parameter values corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme is too large or too small can be fully considered when the problem distribution probability influencing the processing scheme is analyzed and determined, and the problem distribution probability of the processing scheme can be better determined according to the factor of the change efficiency when the problem distribution probability is generated, so that the accuracy of the problem distribution probability sent to a responsible person is improved.
In step S100 of fig. 1, in consideration of the fact that the obtained switch cabinet condensation monitoring information may have a problem in monitoring accuracy due to a problem occurring in the internal monitoring device, further checking of the switch cabinet condensation monitoring information in the switch cabinet is required, and the detailed description is specifically made with reference to the embodiment shown in fig. 6.
Referring to fig. 6, the monitoring method for the intelligent switch cabinet further includes a step parallel to the step of acquiring the condensation monitoring information of the switch cabinet, which is specifically as follows:
and step Sa00, regularly starting the switch cabinet inspection device to inspect and acquire switch cabinet condensation monitoring information in the switch cabinet.
Wherein, cubical switchboard inspection device indicates to be equipped with the relevant functional module who obtains condensation monitoring information and the equipment that can remove, and functional module can be the image module that is used for discernment to obtain the inside condensation image of cubical switchboard.
And step Sb00, if the difference between the parameter value corresponding to the switch cabinet condensation monitoring information acquired by the inspection device through inspection and the parameter value corresponding to the original acquired switch cabinet condensation monitoring information is within a preset range, acquiring the average value of the parameters contained in the switch cabinet condensation monitoring information based on the parameter value corresponding to the switch cabinet condensation monitoring information acquired by the inspection device through inspection and the parameter value corresponding to the original acquired switch cabinet condensation monitoring information.
Wherein, the parameter value that the cubical switchboard condensation monitoring information that the inspection device patrols and examines and acquirees corresponds with the difference of the parameter value that the cubical switchboard condensation monitoring information that originally acquireed corresponds indicates: the inspection device inspects the difference between the data of each parameter contained in the acquired switch cabinet condensation monitoring information and the data of the same parameter contained in the original acquired switch cabinet condensation monitoring information.
If the difference between the parameter value corresponding to the switch cabinet condensation monitoring information acquired by the inspection device through inspection and the parameter value corresponding to the original acquired switch cabinet condensation monitoring information indicates that the inspection device inspects the data of each parameter contained in the acquired switch cabinet condensation monitoring information through inspection in the preset range, the difference between the data of the same parameter contained in the acquired switch cabinet condensation monitoring information and the original acquired switch cabinet condensation monitoring information is in the preset range, and the preset range can be set to be a data range according to different parameters.
The average value of the parameters contained in the condensation monitoring information of the switch cabinet is obtained as follows: and acquiring data of each parameter contained in the switch cabinet condensation monitoring information acquired by the inspection device through inspection, acquiring the data of the same parameter contained in the original acquired switch cabinet condensation monitoring information, taking the average number of the data of the same parameter as the data of the corresponding parameter corresponding to the switch cabinet condensation monitoring information, and finally summarizing to form the average value of the parameters contained in the switch cabinet condensation monitoring information.
And step Sc00, if the difference between the parameter value corresponding to the switch cabinet condensation monitoring information acquired by the inspection device through inspection and the parameter value corresponding to the original acquired switch cabinet condensation monitoring information is out of a preset range, sending notification information to a terminal held by a responsible person.
Wherein, if the parameter value that the cubical switchboard condensation monitoring information that the inspection device patrols and examines that acquirees corresponds with the difference of the parameter value that the cubical switchboard condensation monitoring information that originally acquireed corresponds indicates outside the scope of predetermineeing: the inspection device inspects data of each parameter contained in the acquired switch cabinet condensation monitoring information, and the difference between the data of the same parameter contained in the original acquired switch cabinet condensation monitoring information and the data of the same parameter is out of a preset range.
The terminal held by the responsible person can be a mobile phone, a computer and other terminals capable of communicating.
The implementation principle of the embodiment is as follows:
fully consider that the cubical switchboard condensation monitoring information who relies on acquireing in the cubical switchboard is not necessarily reasonable, can regularly make secondary detection through cubical switchboard inspection device to the condensation in the cubical switchboard, in the great condition of deviation appears, also can in time inform the person in charge.
In step Sa00 of fig. 6, when determining a regular time period for starting the switch cabinet inspection device to inspect and obtain the switch cabinet condensation monitoring information in the switch cabinet, the number of times of condensation of the surrounding switch cabinet in a preset time period needs to be considered comprehensively for determination, and the detailed description is specifically made with reference to the embodiment shown in fig. 7.
Referring to fig. 7, regularly starting cubical switchboard inspection device and patrolling and examining and acquire cubical switchboard condensation monitoring information in the cubical switchboard and include:
and step Sa10, acquiring the average frequency of condensation of all switch cabinets in the preset interval range of the switch cabinets in the preset time period.
The preset interval range can be an interval range formed by taking the current switch cabinet as a circle center and taking the preset distance as a radius, the preset distance can be 1 kilometer, and the preset time period can be within one week or within one month.
The analysis of the average number of times of condensation of all switch cabinets in the preset time period within the range of the preset interval of the switch cabinets is obtained as follows: the method comprises the steps of inquiring and acquiring the number of times of condensation of each switch cabinet from a database in which the number of times of condensation of all switch cabinets within a preset interval range of the switch cabinet within a preset time period is stored, calculating the average number of times of condensation of the whole switch cabinet, and taking the average number of times of condensation of all switch cabinets within the preset interval range of the switch cabinet as the average number of times of condensation of all switch cabinets within the preset time period.
Step Sa20, analyzing and obtaining a ratio according to the average number of times of condensation of all switch cabinets in a preset time period within a preset interval range of the switch cabinets and the preset number of times;
wherein, the analysis of the ratio is obtained as follows: taking the average number of times of condensation of all switch cabinets in a preset interval range of the switch cabinets as a dividend, taking the preset number of times as a divisor, and obtaining a quotient, namely a ratio; the preset number of times may be 3 times.
Step Sa30, re-analyzing and determining the inspection cycle of the switch cabinet according to the inspection cycle corresponding to the ratio and the preset times;
the inspection cycle corresponding to the ratio and the preset times can be obtained by inquiring from a preset database in which the inspection cycles corresponding to the ratio and the preset times are stored, and the reanalysis and determination of the inspection cycle of the switch cabinet can adopt the following mode: and taking the product of the ratio and the polling period corresponding to the preset times as the polling period of the switch cabinet.
For example, if the ratio is 2, the polling period corresponding to the preset number of times is 3 days, and the polling period of the switch cabinet is 6 days.
And step Sa40, periodically starting the switch cabinet inspection device to inspect and obtain switch cabinet condensation monitoring information in the switch cabinet according to the reanalyzed and determined inspection period of the switch cabinet.
The implementation principle of the embodiment is as follows:
when the inspection cycle of the inspection device is determined, the influence condition of the external environment of the local area on the switch cabinet can be fully considered, the number of times of condensation of the corresponding area is taken as a reference, the corresponding relation between the preset number of times of condensation and the inspection cycle is combined, the inspection cycle of the inspection device on the switch cabinet is further determined, and inspection is carried out according to the determined inspection cycle.
In step SB00 of fig. 4, in the process of sending the responsible person according to the problem distribution probability analyzed and determined to affect the processing scheme, since the responsible person does not know the specific suitable adjustment scheme, it is not beneficial for the responsible person to adjust the arrangement scheme specifically after the responsible person arrives at the corresponding switch cabinet site, and therefore the responsible person needs to be notified of the specific adjustment scheme in time when the responsible person is notified, which refers to the following embodiments specifically.
The supervision method of the intelligent switch cabinet further comprises the step of sending the problem distribution probability influencing the processing scheme to the terminal held by a responsible person in parallel after analyzing and determining the problem distribution probability influencing the processing scheme according to the corresponding relation between the processing scheme and the problem distribution probability influencing the processing scheme, and the supervision method comprises the following specific steps:
and step SB01, obtaining the model of the switch cabinet and the arrangement scheme of the position of the problematic condensation monitoring information after the switch cabinet executes the processing scheme.
The problem condensation monitoring information refers to condensation monitoring information which does not fall into a parameter value change efficiency interval corresponding to the condensation monitoring information, and the arrangement scheme of the problem condensation monitoring information position after the switch cabinet executes the processing scheme comprises the category, the number and the specific arrangement position of the adopted condensation monitoring devices.
And step SB02, analyzing and determining the arrangement schemes of the condensation monitoring devices at different positions inside and outside the switch cabinet according to the corresponding relation between the switch cabinet type and the optimal arrangement schemes of the condensation monitoring devices at different positions inside and outside the switch cabinet and the switch cabinet type, and defining the condensation monitoring devices to be used for monitoring and acquiring condensation monitoring information.
The optimal arrangement scheme of the condensation monitoring devices comprises the types, the number and the specific arrangement positions of the adopted condensation monitoring devices.
Wherein, the analysis of this condensation monitoring devices of different positions inside and outside cubical switchboard scheme of arranging is confirmed as follows: and taking the current switch cabinet model as an inquiry object, and inquiring and acquiring the arrangement scheme of the condensation monitoring devices at different positions inside and outside the switch cabinet from a preset database in which the corresponding relation between the switch cabinet model and the optimal arrangement scheme of the condensation monitoring devices at different positions inside and outside the switch cabinet is stored.
Step SB03, comparing the layout scheme of the position of the problematic condensation monitoring information after the switch cabinet executes the processing scheme with the layout scheme of the optimal condensation monitoring device at different positions inside and outside the switch cabinet. If the comparison is consistent, executing the step SB04; if the comparison is not consistent, go to step SB05.
Step SB04, the subsequent steps are executed.
And step SB05, analyzing the arrangement scheme of the position of the problematic condensation monitoring information after the switch cabinet executes the processing scheme, and the difference information between the arrangement scheme of the optimal condensation monitoring device at different positions inside and outside the switch cabinet, and using the difference information as the notification information sent to the terminal held by the responsible personnel.
The difference information refers to a specific scheme required to be adjusted at this time, for example, replacement of the category of the adopted condensation monitoring device, number adjustment of the condensation monitoring devices, and specific position adjustment of the condensation monitoring device.
In step SB00 of fig. 4, it is further considered whether the problem distribution probability affecting the processing recipe can be verified by the switch cabinet inspection device before being transmitted to the terminal held by the person in charge, and whether the time consumed for inspection verification by the switch cabinet inspection device is within the expectation, so that further analysis is required after analyzing and determining the problem distribution probability affecting the processing recipe and before being transmitted to the terminal held by the person in charge, which is described in detail with reference to the following embodiments.
The supervision method of the intelligent switch cabinet further comprises the following steps of analyzing and determining the problem distribution probability influencing the processing scheme according to the corresponding relation between the processing scheme and the problem distribution probability influencing the processing scheme, and sending the problem distribution probability to a terminal held by a responsible person:
and step SC00, acquiring the inspection state of the inspection device of the switch cabinet, wherein the inspection state of the inspection device of the switch cabinet comprises inspection in and to-be-started inspection. If the inspection state of the inspection device of the switch cabinet is to be started, executing the step SD00; and if the inspection state of the inspection device of the switch cabinet is in inspection, executing the step SH00.
The method comprises the steps that an acquisition time node of a routing inspection state of a switch cabinet routing inspection device is a time node for analyzing and determining problem distribution probability influencing a processing scheme; the inspection state of the switch cabinet inspection device can be obtained by inquiring from a database which records the inspection state of the switch cabinet inspection device in real time.
And step SD00, if the inspection state of the switch cabinet inspection device is to be started, analyzing and acquiring the inspection state of the switch cabinet inspection device and adjusting the inspection state of the switch cabinet inspection device into the consumed time in inspection according to the inspection period of the switch cabinet.
And step SE00, analyzing and determining the total time consumption of the switch cabinet inspection device for completing inspection of the problem switch cabinet according to the distance from the switch cabinet inspection device to the problem switch cabinet, the preset switch cabinet inspection speed, the inspection state of the switch cabinet inspection device, the time consumption in inspection and the time consumption for inspecting the problem influencing the treatment scheme by the preset switch cabinet inspection device.
Wherein, the cubical switchboard inspection device accomplishes the analysis of the total consuming time of problem cubical switchboard inspection and patrols and examines and confirms as follows: firstly, the distance from the switch cabinet inspection device to the problem switch cabinet is used as dividend, the preset switch cabinet inspection speed is used as divisor, the obtained quotient is the consumed time for the switch cabinet inspection device to move to the problem switch cabinet, then the consumed time for the switch cabinet inspection device to move to the problem switch cabinet and the inspection state of the switch cabinet inspection device are adjusted to the consumed time in inspection and the consumed time for the preset switch cabinet inspection device to inspect the problem influencing the processing scheme are added, and the obtained sum is the total consumed time for the switch cabinet inspection device to complete inspection of the problem switch cabinet.
Wherein, the acquisition that the preset cubical switchboard inspection device investigation influences the consuming time of processing scheme problem is as follows: the method comprises the steps of inquiring and acquiring the consumed time for inspecting the problems of the influence processing schemes by all the switch cabinet inspection devices from a preset time-consuming database in which the problems of the influence processing schemes by the switch cabinet inspection devices are stored, taking the total consumed time for inspecting the problems of the influence processing schemes by all the switch cabinet inspection devices as a dividend, taking the inspection times of the switch cabinet inspection devices as a divisor, and obtaining the quotient which is the consumed time for inspecting the problems of the influence processing schemes by the preset switch cabinet inspection devices.
And SF00, if the total time consumption for the inspection of the switch cabinet inspection device to complete the inspection of the problem switch cabinet is less than the preset notification time consumption, after the inspection state of the switch cabinet inspection device is in inspection, controlling the switch cabinet inspection device to inspect the problem switch cabinet in priority, and after the inspection is completed, taking the inspection result of the inspected problem as notification information and sending the notification information to the terminal held by the responsible person.
And SG00, if the total time consumption of the switch cabinet inspection device for inspecting the problem switch cabinet exceeds the preset notification time consumption, executing the subsequent steps.
And step SH00, if the inspection state of the switch cabinet inspection device is in inspection, acquiring whether the switch cabinet inspection device is in inspection to acquire switch cabinet condensation monitoring information in other switch cabinets. If so, executing the step SI00; if not, executing the step SJ00.
And step SI00, analyzing and acquiring the remaining inspection time of the current switch cabinet according to the inspection time of the preset switch cabinet inspection device and the inspection time of the current switch cabinet.
Wherein, the analysis of the remaining inspection time of the current switch cabinet is obtained as follows: the inspection time consumed by the inspection of the preset switch cabinet inspection device is used as a decrement, the inspection time of the switch cabinet relative to the current switch cabinet is used as a decrement, and the obtained difference is the remaining inspection time of the current switch cabinet.
And step SJ00, judging that the remaining inspection time of the current switch cabinet is 0.
And SK00, analyzing and determining the total consumption of the inspection device of the switch cabinet from the current time node until the inspection of the problem switch cabinet is completed according to the preset time consumed by the inspection device of the switch cabinet to inspect the problem influencing the processing scheme, the current remaining inspection time of the switch cabinet, the distance from the inspection device of the switch cabinet to the problem switch cabinet and the preset inspection speed of the switch cabinet.
The switch cabinet inspection device is determined by analyzing the total consumed time of the current time node until the problem switch cabinet inspection is completed as follows: firstly, taking the distance from the switch cabinet inspection device to the problem switch cabinet as a dividend, taking the preset switch cabinet inspection speed as a divisor, and obtaining an obtained quotient, namely the time consumed by the switch cabinet inspection device to move to the problem switch cabinet; then the switch cabinet inspection device is moved to the time consumption of the problem switch cabinet, the time consumption of the preset switch cabinet inspection device for inspecting the problem influencing the processing scheme and the remaining inspection time of the current switch cabinet are added, and the obtained sum is the total time consumption of the switch cabinet inspection device from the current time node until the problem switch cabinet inspection is completed.
And step SL00, if the analysis determines that the total time consumption of the switch cabinet inspection device from the current time node to the completion of the inspection of the problem switch cabinet is less than the preset notification time consumption, controlling the switch cabinet inspection device to inspect the problem switch cabinet preferentially after the current inspection of the switch cabinet is completed, and sending the inspected problem result as notification information to the terminal held by the responsible person after the inspection is completed.
And SM00, if the analyzed result shows that the total time consumption of the switch cabinet inspection device from the current time node to the completion of the inspection of the switch cabinet with the problem exceeds the preset notification time consumption, executing the subsequent steps.
In step SK00, the further consideration of the time-consuming acquisition of the preset switch cabinet inspection device for inspecting the problem affecting the processing scheme also needs to be given to the consideration of the detection items related to the problem affecting the processing scheme by the switch cabinet inspection device, and the condition whether the same items exist in the detection items related to the inspection of the switch cabinet inspection device for acquiring the switch cabinet condensation monitoring information in the switch cabinet, and the time-consuming acquisition of the preset switch cabinet inspection device for inspecting the problem affecting the processing scheme needs to be further analyzed if the same items can be combined for processing, which is different, specifically referring to the following embodiments.
The time-consuming acquisition of the preset switch cabinet inspection device for inspecting the problem of the influence processing scheme comprises the following steps:
and SK10, analyzing the detection items related to the influence processing scheme problem inspected by the switch cabinet inspection device, and determining whether the same items exist with the detection items related to the switch cabinet condensation monitoring information acquired by the switch cabinet inspection device. If yes, go to step SK20; if not, step SK40 is executed.
The detection item refers to the condition of a monitoring device specifically used for monitoring the condensation monitoring information of the switch cabinet, and the condition includes but is not limited to parameters of voltage and current of the detection device.
And step SK20, combining the detection items of the same item into one detection item, and analyzing and obtaining all the detection items.
And SK30, analyzing and obtaining the whole time consumption of all the detection items according to the corresponding relation between the detection items and the time consumption and all the detection items.
The corresponding relation between the detection items and the detection time consumption can be obtained by inquiring a preset database in which the corresponding relation between the detection items and the detection time consumption is stored, and the analysis of the whole time consumption of all the detection items is as follows: and taking each detection item as a query object, acquiring the time consumption of each detection item from a preset database in which the corresponding relation between the detection items and the time consumption is stored, and then adding the time consumptions of all the detection items to obtain the overall time consumption of all the detection items.
And SK40, analyzing and obtaining the whole time consumption of all the detection items according to the corresponding relation between the detection items and the time consumption and all the detection items.
Step SK40 specifically describes synchronization step SK30, and is not described herein in greater detail.
In steps Sa30 and Sa40 of fig. 7, it is further considered that the inspection timing of the inspection device for the switch cabinet should not be based on the time limit only, but can be further determined according to the environment of the switch cabinet, and the following embodiments are specifically referred to for detailed description.
Regular start cubical switchboard inspection device patrols and examines and acquires cubical switchboard condensation monitoring information in the cubical switchboard still including being located according to the ratio and the cycle of patrolling and examining that preset number of times corresponds, after the cycle of patrolling and examining of the cubical switchboard is confirmed in the reanalysis, and according to the cycle of patrolling and examining of the cubical switchboard that the reanalysis is confirmed, regular start cubical switchboard inspection device patrols and examines and acquires the cubical switchboard condensation monitoring information before step in the cubical switchboard specifically as follows:
and step Saa0, analyzing whether the problem inspection result of the inspection device after inspection about the corresponding switch cabinet relates to the external environment temperature and humidity. If yes, executing the step Sab0; if not, executing the step Sac0.
Wherein, the problem investigation result of inspection device after patrolling and examining about corresponding cubical switchboard refers to the influence factor of the specific production problem of checing, and influence factor includes but not limited to external environment humiture, detection device's ageing condition etc..
And step Sab0, acquiring the external environment temperature and humidity of the corresponding switch cabinet, and analyzing and determining the inspection opportunity for starting the switch cabinet inspection device to perform inspection of the corresponding switch cabinet according to the reanalyzed inspection cycle of the switch cabinet and/or the time for the external temperature and humidity to fall into the preset environment temperature and humidity range after the external temperature and humidity fall into the preset environment temperature and humidity range.
And step Sac0, continuing to execute the subsequent steps.
An embodiment of the present invention provides a computer-readable storage medium, which includes a program capable of being loaded and executed by a processor to implement any one of the methods shown in fig. 1-7.
The computer-readable storage medium 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.
Referring to fig. 8, an embodiment of the present application further provides a supervision system of an intelligent switch cabinet, including:
an obtaining module 1, configured to: and acquiring condensation monitoring information of the switch cabinet.
A cause analysis module 2 for: and analyzing and acquiring the reason of the switch cabinet condensation according to the corresponding relation between the switch cabinet condensation monitoring information and the reason of the switch cabinet condensation.
A processing scheme determination module 3 configured to: and analyzing and determining the treatment scheme according to the corresponding relation between the switch cabinet condensation reason and the treatment scheme.
An execution module 4, configured to: a processing scheme is executed.
The implementation principle of the embodiment is as follows: after obtaining cubical switchboard condensation monitoring information through obtaining module 1, can effectively confirm this cubical switchboard condensation reason according to cubical switchboard condensation monitoring information analysis through reason analysis module 2 to confirm module 3 matches the processing scheme that is fit for solving this cubical switchboard condensation reason through the processing scheme, handle this cubical switchboard condensation condition through execution module 4 at last.
The embodiments of the present invention are all preferred embodiments of the present application, and the protection scope of the present application is not limited thereby, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.
Claims (10)
1. A supervision method of an intelligent switch cabinet is characterized by comprising the following steps:
acquiring condensation monitoring information of a switch cabinet;
analyzing and obtaining the reason of the switch cabinet condensation according to the corresponding relation between the switch cabinet condensation monitoring information and the reason of the switch cabinet condensation;
analyzing and determining a treatment scheme according to the corresponding relation between the switch cabinet condensation reason and the treatment scheme;
a processing scheme is executed.
2. The intelligent switch cabinet supervision method according to claim 1, wherein the analyzing and obtaining the switch cabinet condensation reason according to the corresponding relationship between the switch cabinet condensation monitoring information and the switch cabinet condensation reason comprises:
analyzing the acquired switch cabinet condensation monitoring information types, wherein the switch cabinet condensation monitoring information types comprise switch cabinet condensation direct monitoring information and switch cabinet condensation indirect monitoring information;
if the type of the obtained switch cabinet condensation monitoring information is switch cabinet condensation direct monitoring information, analyzing and obtaining the switch cabinet condensation reason according to the corresponding relation between the switch cabinet condensation direct monitoring information and the switch cabinet condensation reason;
and if the acquired type of the switch cabinet condensation monitoring information is the indirect switch cabinet condensation monitoring information, analyzing and acquiring the reason of the switch cabinet condensation according to the corresponding relation between the indirect switch cabinet condensation monitoring information and the reason of the switch cabinet condensation.
3. The supervision method for the intelligent switch cabinet according to claim 2, further comprising a step after analyzing the acquired switch cabinet condensation monitoring information types, specifically as follows:
if the acquired switch cabinet condensation monitoring information type comprises switch cabinet condensation indirect monitoring information and switch cabinet condensation direct monitoring information, selecting the switch cabinet condensation monitoring information type with higher accuracy according to the historical accuracy of the acquired switch cabinet condensation monitoring information type, and analyzing and acquiring the switch cabinet condensation reason according to the corresponding relation between the switch cabinet condensation monitoring information type with higher accuracy and the switch cabinet condensation reason.
4. The supervision method for the intelligent switch cabinet according to claim 2, further comprising a step after analyzing the acquired switch cabinet condensation monitoring information types, specifically as follows:
if the acquired switch cabinet condensation monitoring information types comprise switch cabinet condensation indirect monitoring information and switch cabinet condensation direct monitoring information, selecting the switch cabinet condensation monitoring information type with higher accuracy as the switch cabinet condensation monitoring information adopted at the corresponding position according to the historical accuracy of the switch cabinet condensation monitoring information types at different positions;
analyzing and obtaining condensation reasons of different positions of the switch cabinet according to the corresponding relation between the selected switch cabinet condensation monitoring information type and the switch cabinet condensation reason;
and selecting the reason with the highest proportion as the condensation reason of the switch cabinet according to the analyzed and obtained condensation reasons of different positions of the switch cabinet.
5. The supervision method for the intelligent switch cabinet according to claim 4, characterized by further comprising a step after executing the processing scheme, specifically as follows:
acquiring condensation monitoring information after the switch cabinet executes the processing scheme;
analyzing and determining a change efficiency interval of the parameter value corresponding to the condensation monitoring information according to the corresponding relation between the execution processing scheme and the change efficiency interval of the parameter value corresponding to the condensation monitoring information;
analyzing and acquiring change efficiency of parameter values corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme in real time according to the obtained condensation monitoring information after the switch cabinet executes the processing scheme and the switch cabinet condensation monitoring information;
if the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme is analyzed and acquired in real time and does not fall into the change efficiency interval of the parameter value corresponding to the condensation monitoring information, whether the type of the acquired switch cabinet condensation monitoring information contains indirect switch cabinet condensation monitoring information and direct switch cabinet condensation monitoring information or not is analyzed;
if so, replacing the acquired switch cabinet condensation monitoring information type, and analyzing and acquiring the condensation reasons of different positions of the switch cabinet according to the corresponding relation between the selected switch cabinet condensation monitoring information type and the switch cabinet condensation reason;
selecting the reason with the highest ratio as the condensation reason of the switch cabinet according to the analyzed and obtained condensation reasons of different positions of the switch cabinet, re-analyzing and determining a processing scheme, and executing the processing scheme;
if not, analyzing and determining the problem distribution probability influencing the processing scheme according to the corresponding relation between the processing scheme and the problem distribution probability influencing the processing scheme, and sending the problem distribution probability influencing the processing scheme to the terminal held by the responsible personnel.
6. The intelligent switch cabinet supervision method according to claim 5, wherein if no, analyzing and determining the problem distribution probability affecting the processing scheme according to the corresponding relationship between the processing scheme and the problem distribution probability affecting the processing scheme comprises:
analyzing and obtaining a difference value between the change efficiency of the parameter value corresponding to the condensation monitoring information before and after the switch cabinet executes the processing scheme and the maximum change efficiency corresponding to the change efficiency interval of the parameter value corresponding to the condensation monitoring information;
and analyzing and determining the problem distribution probability influencing the processing scheme according to the corresponding relation between the difference value and the problem distribution probability influencing the processing scheme.
7. The supervision method for the intelligent switch cabinet according to any one of claims 5 or 6, characterized by further comprising a step of obtaining condensation monitoring information of the switch cabinet in parallel, specifically as follows:
regularly starting a switch cabinet inspection device to inspect and obtain switch cabinet condensation monitoring information in a switch cabinet;
if the difference between the parameter value corresponding to the switch cabinet condensation monitoring information acquired by the inspection device through inspection and the parameter value corresponding to the original acquired switch cabinet condensation monitoring information is within a preset range, acquiring the average value of the parameters contained in the switch cabinet condensation monitoring information based on the parameter value corresponding to the switch cabinet condensation monitoring information acquired by the inspection device through inspection and the parameter value corresponding to the original acquired switch cabinet condensation monitoring information;
and if the difference between the parameter value corresponding to the switch cabinet condensation monitoring information acquired by the inspection device through inspection and the parameter value corresponding to the original acquired switch cabinet condensation monitoring information is out of the preset range, sending notification information to the terminal held by the responsible person.
8. The intelligent switch cabinet supervision method according to claim 7, wherein the regular starting of the switch cabinet inspection device for inspection to acquire switch cabinet condensation monitoring information in the switch cabinet comprises:
acquiring the average frequency of condensation of all switch cabinets in a preset interval range of the switch cabinets in a preset time period;
analyzing and obtaining a ratio according to the average number of times of condensation of all switch cabinets in a preset time period and the preset number of times within a preset interval range of the switch cabinets;
re-analyzing and determining the inspection cycle of the switch cabinet according to the inspection cycle corresponding to the ratio and the preset times;
and according to the reanalyzed and determined inspection period of the switch cabinet, regularly starting the switch cabinet inspection device to inspect and obtain the switch cabinet condensation monitoring information in the switch cabinet.
9. The supervision method for the intelligent switch cabinet according to claim 5, further comprising a step of analyzing and determining the problem distribution probability affecting the processing scheme according to the corresponding relationship between the processing scheme and the problem distribution probability affecting the processing scheme, and then sending the problem distribution probability to a terminal held by a responsible person, wherein the steps are as follows:
acquiring the model of a switch cabinet and an arrangement scheme of positions of problematic condensation monitoring information after the switch cabinet executes a processing scheme, wherein the problematic condensation monitoring information refers to condensation monitoring information which does not fall into a variation efficiency interval of a parameter value corresponding to the condensation monitoring information, and the arrangement scheme of the positions of the problematic condensation monitoring information after the switch cabinet executes the processing scheme comprises the type, the number and the specific arrangement positions of adopted condensation monitoring devices;
analyzing and determining the layout schemes of the condensation monitoring devices at different positions inside and outside the switch cabinet according to the corresponding relation between the model of the switch cabinet and the layout schemes of the optimal condensation monitoring devices at different positions inside and outside the switch cabinet and the model of the switch cabinet, and defining the condensation monitoring devices for monitoring and acquiring condensation monitoring information, wherein the layout scheme of the optimal condensation monitoring devices comprises the types, the numbers and the specific layout positions of the adopted condensation monitoring devices;
comparing the layout scheme of the position of the problematic condensation monitoring information after the switch cabinet executes the processing scheme with the layout scheme of the optimal condensation monitoring device at different positions inside and outside the switch cabinet;
if the comparison is consistent, executing the subsequent steps;
and if the comparison is inconsistent, analyzing the arrangement scheme of the position of the problematic condensation monitoring information after the switch cabinet executes the processing scheme and the difference information of the arrangement scheme of the optimal condensation monitoring device at different positions inside and outside the switch cabinet, and taking the difference information as the notification information sent to the terminal held by the responsible personnel.
10. A supervisory system of intelligence cubical switchboard which characterized in that includes:
an acquisition module (1) for: acquiring condensation monitoring information of a switch cabinet;
a cause analysis module (2) for: analyzing and obtaining the switch cabinet condensation reason according to the corresponding relation between the switch cabinet condensation monitoring information and the switch cabinet condensation reason;
a processing scheme determination module (3) for: analyzing and determining a treatment scheme according to the corresponding relation between the switch cabinet condensation reason and the treatment scheme;
an execution module (4) for: a processing scheme is executed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202211460645.4A CN115719998B (en) | 2022-11-17 | 2022-11-17 | Supervision method and system of intelligent switch cabinet and storage medium |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202211460645.4A CN115719998B (en) | 2022-11-17 | 2022-11-17 | Supervision method and system of intelligent switch cabinet and storage medium |
Publications (2)
Publication Number | Publication Date |
---|---|
CN115719998A true CN115719998A (en) | 2023-02-28 |
CN115719998B CN115719998B (en) | 2023-06-16 |
Family
ID=85255893
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202211460645.4A Active CN115719998B (en) | 2022-11-17 | 2022-11-17 | Supervision method and system of intelligent switch cabinet and storage medium |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN115719998B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117060594A (en) * | 2023-10-11 | 2023-11-14 | 宁波天仑电气股份有限公司 | Power distribution operation monitoring system based on Internet of things |
Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102868110A (en) * | 2012-09-24 | 2013-01-09 | 广东电网公司珠海供电局 | Method, device and system for performing video monitoring on outdoor ring main unit |
CN104460786A (en) * | 2014-10-31 | 2015-03-25 | 苏州佑瑞检测技术有限公司 | Switch cabinet condensate monitoring and processing method |
CN106127607A (en) * | 2016-06-24 | 2016-11-16 | 广西电网有限责任公司南宁供电局 | A kind of analysis method of electric power accident upper and lower level reason degree of association |
CN106951990A (en) * | 2017-03-20 | 2017-07-14 | 国家电网公司 | Electric load intelligent Forecasting and device |
DE102019204300A1 (en) * | 2019-03-28 | 2020-10-01 | Siemens Aktiengesellschaft | High-voltage device and method for determining the risk of condensation in cabinets in such a high-voltage device |
CN112467572A (en) * | 2020-09-30 | 2021-03-09 | 国网浙江省电力有限公司绍兴供电公司 | Moisture-proof and condensation-proof switch cabinet and method for regulating and controlling environment in cabinet |
KR102279481B1 (en) * | 2020-10-15 | 2021-07-19 | 이성만 | Condensation prevention system of switchboard |
CN215299796U (en) * | 2020-10-10 | 2021-12-24 | 珠海优特电力科技股份有限公司 | Anti-condensation system of electric power cabinet |
CN217642861U (en) * | 2021-11-18 | 2022-10-21 | 国网福建省电力有限公司龙岩供电公司 | High tension switchgear heat dissipation and prevent condensation intelligence control system based on fuzzy control |
-
2022
- 2022-11-17 CN CN202211460645.4A patent/CN115719998B/en active Active
Patent Citations (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102868110A (en) * | 2012-09-24 | 2013-01-09 | 广东电网公司珠海供电局 | Method, device and system for performing video monitoring on outdoor ring main unit |
CN104460786A (en) * | 2014-10-31 | 2015-03-25 | 苏州佑瑞检测技术有限公司 | Switch cabinet condensate monitoring and processing method |
CN106127607A (en) * | 2016-06-24 | 2016-11-16 | 广西电网有限责任公司南宁供电局 | A kind of analysis method of electric power accident upper and lower level reason degree of association |
CN106951990A (en) * | 2017-03-20 | 2017-07-14 | 国家电网公司 | Electric load intelligent Forecasting and device |
DE102019204300A1 (en) * | 2019-03-28 | 2020-10-01 | Siemens Aktiengesellschaft | High-voltage device and method for determining the risk of condensation in cabinets in such a high-voltage device |
CN112467572A (en) * | 2020-09-30 | 2021-03-09 | 国网浙江省电力有限公司绍兴供电公司 | Moisture-proof and condensation-proof switch cabinet and method for regulating and controlling environment in cabinet |
CN215299796U (en) * | 2020-10-10 | 2021-12-24 | 珠海优特电力科技股份有限公司 | Anti-condensation system of electric power cabinet |
KR102279481B1 (en) * | 2020-10-15 | 2021-07-19 | 이성만 | Condensation prevention system of switchboard |
CN217642861U (en) * | 2021-11-18 | 2022-10-21 | 国网福建省电力有限公司龙岩供电公司 | High tension switchgear heat dissipation and prevent condensation intelligence control system based on fuzzy control |
Non-Patent Citations (2)
Title |
---|
"电柜防凝露的神经网络预测控制方法研究", 中国优秀硕士学位论文全文数据库, no. 2020, pages 042 - 1003 * |
郭沁: "10kV环网柜凝露机理及防护措施分析研究", 中国优秀硕士学位论文全文数据库(电子期刊)工程科技Ⅱ辑, no. 2018, pages 042 - 1444 * |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117060594A (en) * | 2023-10-11 | 2023-11-14 | 宁波天仑电气股份有限公司 | Power distribution operation monitoring system based on Internet of things |
CN117060594B (en) * | 2023-10-11 | 2024-01-26 | 宁波天仑电气股份有限公司 | Power distribution operation monitoring system based on Internet of things |
Also Published As
Publication number | Publication date |
---|---|
CN115719998B (en) | 2023-06-16 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN113551775B (en) | Equipment fault on-line monitoring alarm method and system based on infrared thermal imaging | |
CN115719998A (en) | Intelligent switch cabinet supervision method and system and storage medium | |
CN112306126B (en) | Electronic machine room temperature and humidity control method and system, intelligent terminal and storage medium | |
CN112180267A (en) | Battery test system, method, electronic device and storage medium | |
CN110751385B (en) | Non-invasive load identification method, terminal device and storage medium | |
CN116629458B (en) | Energy storage equipment operation optimization method and system based on data analysis | |
CN111578471B (en) | Unattended electric power comprehensive automatic monitoring system, method and storage medium | |
CN110750760B (en) | Abnormal theoretical line loss detection method based on situation awareness and control diagram | |
CN117674369B (en) | New energy storage battery pack charge and discharge safety management system | |
CN114487836B (en) | Battery state analysis method, system and terminal based on voltage and temperature | |
CN116311854A (en) | Method and system for early warning of abnormal operation of lithium battery energy storage station | |
CN117970168B (en) | High-efficiency processing method for monitoring data of dual-power conversion device | |
CN114674060B (en) | Humidifier water detection method and device | |
CN110988259A (en) | Pollution source positioning method, device and system and storage medium | |
CN114543982A (en) | Method and device for detecting vibration of equipment, vibration detection equipment and storage medium | |
CN115684829A (en) | Power secondary circuit fault detection early warning method and system | |
CN115392380A (en) | Method and device for identifying abnormal data of partial discharge online monitoring and storage medium | |
CN114252555A (en) | Integrated gas intelligent detection method, system, device and storage medium | |
CN114449721A (en) | Static elimination system and static elimination method | |
CN113570473A (en) | Equipment fault monitoring method and device, computer equipment and storage medium | |
CN113096268A (en) | Patrol instrument monitoring system and method based on 5G network | |
CN115576936B (en) | Intelligent calibration method and system for electricity consumption data | |
CN211206665U (en) | Monitoring system for recording start-up and shut-down states of refrigerator | |
CN117133109B (en) | Automatic alarm suppression system for energy storage container | |
CN117494910B (en) | Multi-energy coordination optimization control system and method based on carbon emission reduction |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |