CN109840696B - Scheduling work whole process control method and system based on closed-loop management - Google Patents
Scheduling work whole process control method and system based on closed-loop management Download PDFInfo
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- 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
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- 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
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Abstract
The invention discloses a scheduling work whole process control method and system based on closed-loop management. The invention provides a scheduling work whole process control method and a scheduling work whole process control system based on closed-loop management, which adopt a quantized maintenance list to realize effective distribution of workload, so that a scheduler can grasp the work progress in real time, and meanwhile, through real-time error-prevention prompt of the system, the method and the system realize no omission, no error and improve the work efficiency.
Description
Technical Field
The invention relates to the technical field of automation, in particular to a scheduling work whole process control method and system based on closed-loop management.
Background
With the development of society, the power grid scale is continuously enlarged, the smart power grid technology is continuously mature, and the enterprise management requirements and the requirements of users on the power supply reliability are higher and higher. The service of the dispatching desk is increased, and a dispatcher needs to conduct remote control operation of equipment, data record backfilling, drawing check and release and the like besides commanding on-site operation. During operation, a plurality of system switching operations are involved, and high-intensity work easily causes missing errors of a dispatcher during operation. The situation not only causes that the work can not be closed loop on time, but also affects the work efficiency; the normal power transmission time of a user can be influenced, the power supply reliability and the user satisfaction degree can be influenced, and the enterprise and social economic losses are caused; the worst can even lead to the wrong evaluation of the equipment state by a dispatcher, and lead to malignant misoperation or misoperation, endangering the personal safety and the power grid equipment.
Disclosure of Invention
The invention provides a scheduling work whole process control method and system based on closed-loop management.
A scheduling work whole process control method based on closed-loop management, which is used for a scheduling work whole process control system based on closed-loop management and comprises the following steps:
s1, initializing: reading data of all maintenance orders, permission records and operation tickets of a technical service platform at the initialization time of system setting, screening out the maintenance orders of power failure on the same day and the maintenance orders of power restoration on the same day, forming a total workload progress bar according to the number of the maintenance orders, and effectively distributing the maintenance orders to form a dispatcher workload progress bar;
s2, executing a maintenance list scanning program, and returning to S1 if the completion degree of the total progress bar of the workload reaches 100%; if the scanned maintenance list is in a state to be executed, S6 is executed; if the scanned maintenance list is in the executing state, executing S7; if the scanned maintenance list is in a delay state, executing S8; if all the maintenance sheets are scanned, executing S3;
s3: after all the maintenance sheets are scanned, starting to scan whether a reminding frame exists on the system, if the reminding frame does not exist, rescanning the screened maintenance sheets after an interval of X min, and returning to S2; if the reminding frame exists, executing S4;
s4: after the interval of X min, rescanning the screened maintenance list, and returning to S2; if not, executing S5;
s5: any reminding frame in X min meets the automatic disappearance condition, the corresponding reminding frame disappears, if not, the reminding frame remains in existence, after X min intervals, the screened maintenance list is scanned again, and S2 is returned;
s6: executing the maintenance list to execute program, and executing S9 when the corresponding step is executed;
s7: executing the maintenance list delay program, and executing S9 when the maintenance list delay program is executed to the corresponding step;
s8: executing the program in the execution of the maintenance list, and executing S9 if the execution returns; if the program is executed until the maintenance list delay program is executed, returning to S7;
s9: scanning the next service list and returning to S2.
Preferably, the step S6 includes:
s61, if the corresponding equipment maintenance units are not notified, notifying the corresponding equipment maintenance units;
s62, if the system does not overhaul the power failure operation ticket corresponding to the single phase in Y min before the power failure time, a reminding frame is popped up and sounds, a dispatcher is reminded to timely take out the ticket and return to S9;
s63, when the maintenance single power failure time begins, if the system detects that the corresponding equipment has abnormal information on the EMS, a reminding frame is popped up, sounds and sounds, a dispatcher is reminded to evaluate whether the abnormal information can influence the power failure operation, and S9 is returned;
s64, if the power failure operation ticket is not executed, a reminding frame is popped up and sounds, a dispatcher is reminded to start power failure in time, and S9 is returned;
s65, after the power failure operation ticket is filed for Y min, if the permission registration form does not have a corresponding permission record, a reminding frame is popped up and sounds, a dispatcher is reminded of timely permitting maintenance work, and S9 is returned;
s66, after filling the permission record, zmin, if the system detects that the service list is not filled with the power failure operation time, the permission time or the error filling time, a reminding frame is popped up and sounds, a dispatcher is reminded of timely refilling or time modifying, the service list is enabled to be in an executing state, and S9 is returned.
Preferably, the step 7 includes:
s71, automatically notifying a corresponding equipment maintenance unit by the system in a period of K minutes before the start of the repair list re-electrifying time, and reminding the equipment maintenance unit that if the work cannot be completed on time, the repair list delay needs to be applied to a dispatcher;
s72, if the maintenance list is not delayed, maintaining the in-execution state of the maintenance list, and returning to the step 8; if the maintenance list has delay and the maintenance delay time exceeds the initialization time set by the system, the system defaults that the work of the maintenance list is finished today, the total workload progress bar and the completion degree of the dispatcher workload progress bar are increased, the maintenance list is transferred to a delay state, and the step 9 is returned;
s73, if the maintenance list has delay and the maintenance delay time does not exceed the initialization time set by the system, the maintenance list flows to a delay state, and the step 9 is returned.
Preferably, the step 8 includes:
s81, if the system detects that no corresponding power restoration operation ticket exists in Y min before the start of the power restoration time of the maintenance list, a reminding frame is popped up and sounds, a dispatcher is reminded to timely send out the ticket, the power transmission time is prevented from being delayed, and the step 9 is returned;
s82, after the record corresponding to the registration form is approved and filed, if the system detects that the corresponding equipment has abnormal information on the EMS, a reminding frame is popped up and sounds, a dispatcher is reminded to evaluate whether the abnormal information can influence the power restoration operation, and the step 9 is returned;
s83, after finishing the permission registration form, for Y min, if the power restoration operation is not executed, popping up a reminding frame and making sound to remind a dispatcher of operation, avoiding delaying power transmission time, and returning to the step 9; after the duplicate operation ticket is filed for Y min, if the system detects that the duplicate operation time, the permission time or the error filling time is not filled in the maintenance ticket, so that the time does not correspond to the duplicate operation time and the permission time is later than the duplicate operation time, a reminding frame is popped up and sounds, a dispatcher is reminded of timely backfilling or time modification, the maintenance ticket is enabled to be transferred to the filing state, meanwhile, the completion degree of a total workload progress bar and a dispatcher workload progress bar is increased, the maintenance ticket is transferred to the filing state, and the step 9 is returned.
Compared with the prior art, the technical scheme of the invention has the beneficial effects that:
the invention provides a scheduling work whole process control method and a scheduling work whole process control system based on closed-loop management, which adopt a quantized maintenance list to realize effective distribution of workload, so that a scheduler can grasp the work progress in real time, and meanwhile, through real-time error-prevention prompt of the system, the method and the system realize no omission, no error and improve the work efficiency.
Drawings
FIG. 1 is a flow chart of an embodiment of the present invention;
FIG. 2 is a flow chart illustrating the transition of a service single standby state flow to an on-execution state according to an embodiment of the present invention;
FIG. 3 is a flow chart illustrating a state flow transition to a delayed state in execution of an inspection bill embodying the present invention;
FIG. 4 is a flow chart illustrating a state flow in execution of an access ticket to an archiving state in accordance with an embodiment of the present invention.
Detailed Description
The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, which are only for illustration and not to be construed as limitations of the present patent. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Example 1
A scheduling work whole process control method based on closed-loop management, which is used for a scheduling work whole process control system based on closed-loop management and comprises the following steps:
s1, initializing: reading data of all maintenance orders, permission records and operation tickets of a technical service platform at the initialization time of system setting, screening out the maintenance orders of power failure on the same day and the maintenance orders of power restoration on the same day, forming a total workload progress bar according to the number of the maintenance orders, and effectively distributing the maintenance orders to form a dispatcher workload progress bar;
s2, executing a maintenance list scanning program, and returning to S1 if the completion degree of the total progress bar of the workload reaches 100%; if the scanned maintenance list is in a state to be executed, S6 is executed; if the scanned maintenance list is in the executing state, executing S7; if the scanned maintenance list is in a delay state, executing S8; if all the maintenance sheets are scanned, executing S3;
s3: after all the maintenance sheets are scanned, starting to scan whether a reminding frame exists on the system, if the reminding frame does not exist, rescanning the screened maintenance sheets after an interval of X min, and returning to S2; if the reminding frame exists, executing S4;
s4: after the interval of X min, rescanning the screened maintenance list, and returning to S2; if not, executing S5;
s5: any reminding frame in X min meets the automatic disappearance condition, the corresponding reminding frame disappears, if not, the reminding frame remains in existence, after X min intervals, the screened maintenance list is scanned again, and S2 is returned;
s6: executing the maintenance list to execute program, and executing S9 when the corresponding step is executed;
s7: executing the maintenance list delay program, and executing S9 when the maintenance list delay program is executed to the corresponding step;
s8: executing the program in the execution of the maintenance list, and executing S9 if the execution returns; if the program is executed until the maintenance list delay program is executed, returning to S7;
s9: scanning the next service list and returning to S2.
Preferably, the step S6 includes:
s61, if the corresponding equipment maintenance units are not notified, notifying the corresponding equipment maintenance units;
s62, if the system does not overhaul the power failure operation ticket corresponding to the single phase in Y min before the power failure time, a reminding frame is popped up and sounds, a dispatcher is reminded to timely take out the ticket and return to S9;
s63, when the maintenance single power failure time begins, if the system detects that the corresponding equipment has abnormal information on the EMS, a reminding frame is popped up, sounds and sounds, a dispatcher is reminded to evaluate whether the abnormal information can influence the power failure operation, and S9 is returned;
s64, if the power failure operation ticket is not executed, a reminding frame is popped up and sounds, a dispatcher is reminded to start power failure in time, and S9 is returned;
s65, after the power failure operation ticket is filed for Y min, if the permission registration form does not have a corresponding permission record, a reminding frame is popped up and sounds, a dispatcher is reminded of timely permitting maintenance work, and S9 is returned;
s66, after filling the permission record, zmin, if the system detects that the service list is not filled with the power failure operation time, the permission time or the error filling time, a reminding frame is popped up and sounds, a dispatcher is reminded of timely refilling or time modifying, the service list is enabled to be in an executing state, and S9 is returned.
Preferably, the step 7 includes:
s71, automatically notifying a corresponding equipment maintenance unit by the system in a period of K minutes before the start of the repair list re-electrifying time, and reminding the equipment maintenance unit that if the work cannot be completed on time, the repair list delay needs to be applied to a dispatcher;
s72, if the maintenance list is not delayed, maintaining the in-execution state of the maintenance list, and returning to the step 8; if the maintenance list has delay and the maintenance delay time exceeds the initialization time set by the system, the system defaults that the work of the maintenance list is finished today, the total workload progress bar and the completion degree of the dispatcher workload progress bar are increased, the maintenance list is transferred to a delay state, and the step 9 is returned;
s73, if the maintenance list has delay and the maintenance delay time does not exceed the initialization time set by the system, the maintenance list flows to a delay state, and the step 9 is returned.
Preferably, the step 8 includes:
s81, if the system detects that no corresponding power restoration operation ticket exists in Y min before the start of the power restoration time of the maintenance list, a reminding frame is popped up and sounds, a dispatcher is reminded to timely send out the ticket, the power transmission time is prevented from being delayed, and the step 9 is returned;
s82, after the record corresponding to the registration form is approved and filed, if the system detects that the corresponding equipment has abnormal information on the EMS, a reminding frame is popped up and sounds, a dispatcher is reminded to evaluate whether the abnormal information can influence the power restoration operation, and the step 9 is returned;
s83, after finishing the permission registration form, for Y min, if the power restoration operation is not executed, popping up a reminding frame and making sound to remind a dispatcher of operation, avoiding delaying power transmission time, and returning to the step 9; after the duplicate operation ticket is filed for Y min, if the system detects that the duplicate operation time, the permission time or the error filling time is not filled in the maintenance ticket, so that the time does not correspond to the duplicate operation time and the permission time is later than the duplicate operation time, a reminding frame is popped up and sounds, a dispatcher is reminded of timely backfilling or time modification, the maintenance ticket is enabled to be transferred to the filing state, meanwhile, the completion degree of a total workload progress bar and a dispatcher workload progress bar is increased, the maintenance ticket is transferred to the filing state, and the step 9 is returned.
It is to be understood that the above examples of the present invention are provided by way of illustration only and not by way of limitation of the embodiments of the present invention. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.
Claims (4)
1. The scheduling work whole process control method based on the closed-loop management is used for a scheduling work whole process control system based on the closed-loop management and is characterized by comprising the following steps of:
s1, initializing: reading data of all maintenance orders, permission records and operation tickets of a technical service platform at the initialization time of system setting, screening out the maintenance orders of power failure on the same day and the maintenance orders of power restoration on the same day, forming a total workload progress bar according to the number of the maintenance orders, and effectively distributing the maintenance orders to form a dispatcher workload progress bar;
s2, executing a maintenance list scanning program, and returning to S1 if the completion degree of the total progress bar of the workload reaches 100%; if the scanned maintenance list is in a state to be executed, S6 is executed; if the scanned maintenance list is in the executing state, executing S8; if the scanned maintenance list is in a delay state, S7 is executed; when all the maintenance sheets are scanned, executing S3;
s3: after all the maintenance sheets are scanned, starting to scan whether a reminding frame exists on the system, if the reminding frame does not exist, rescanning the screened maintenance sheets after an interval of X min, and returning to S2; if the reminding frame exists, executing S4;
s4: after the interval of X min, rescanning the screened maintenance list, and returning to S2; if not, executing S5;
s5: if the problem prompted by any prompting frame in the X min is solved by the dispatcher, the corresponding prompting frame disappears, if the problem prompted is not solved, the prompting frame is kept in existence, and after the interval of X min, the screened maintenance list is scanned again, and S2 is returned;
s6: executing the maintenance single standby execution program, and if the execution returns to the S9, executing the S9;
s7: executing the maintenance list delay program, and if the maintenance list delay program is executed to return to the step S9, executing the step S9; if the maintenance list has delay and the maintenance delay time exceeds the initialization time set by the system, the system defaults that the work of the maintenance list is finished at present, the work load total progress bar and the dispatcher work load progress bar finish degree are increased, the maintenance list is transferred to a delay state, and S9 is returned;
s8: executing the program in the execution of the maintenance list, and if the execution returns to the step S9, executing the step S9; if the program is executed until the maintenance list delay program is executed, returning to S7; if the system detects that the repair order is not backfilled with the duplicate operation time, the permission time or the error filling time, a reminding frame is popped up and sounds, a dispatcher is reminded of timely backfilling or time modifying, the repair order is transferred to an archiving state, meanwhile, the completion degree of a total workload progress bar and a dispatcher workload progress bar is increased, the repair order is transferred to the archiving state, and S9 is returned;
s9: scanning the next service list and returning to S2.
2. The scheduling job overall process control method based on closed loop management according to claim 1, wherein said S6 comprises:
s61, if the corresponding equipment maintenance units are not notified, notifying the corresponding equipment maintenance units;
s62, if the system does not overhaul the power failure operation ticket corresponding to the single phase in Y min before the power failure time, a reminding frame is popped up and sounds, a dispatcher is reminded to timely take out the ticket and return to S9;
s63, when the maintenance single power failure time begins, if the system detects that the corresponding equipment has abnormal information on the EMS system, a reminding frame is popped up and sounds, a dispatcher is reminded to evaluate whether the abnormal information can influence power failure operation or not, and S9 is returned;
s64, if the power failure operation ticket is not executed, a reminding frame is popped up and sounds, a dispatcher is reminded to start power failure in time, and S9 is returned;
s65, after the power failure operation ticket is filed for Y min, if the permission registration form does not have a corresponding permission record, a reminding frame is popped up and sounds, a dispatcher is reminded of timely permitting maintenance work, and S9 is returned;
s66, after filling in the permission record, zmin, if the system detects that the service bill is not filled with the power failure operation time, the permission time or the error filling time, a reminding frame is popped up and sounds, a dispatcher is reminded of timely refilling or time modifying, the service bill is enabled to be in an executing state, and S9 is returned; if there is the backfill power-off operation time, the permission time or the backfill error time, S9 is directly executed.
3. The scheduling job overall process control method based on closed loop management according to claim 1, wherein said S7 comprises:
s71, notifying an equipment maintenance unit corresponding to the overhaul single by the system in K min before the start of the overhaul single power restoration time, and reminding the equipment maintenance unit that if the work cannot be completed on time, the equipment maintenance unit needs to apply for an overhaul single delay to a dispatcher;
s72, if the maintenance list is not delayed, maintaining the in-execution state of the maintenance list, and returning to S8; if the maintenance list has delay and the maintenance delay time exceeds the initialization time set by the system, the system defaults that the work of the maintenance list is finished today, the work load total progress bar and the dispatcher work load progress bar finish degree are increased, the maintenance list is transferred to a delay state, and S9 is returned;
s73, if the maintenance list has delay and the maintenance delay time does not exceed the initialization time set by the system, the maintenance list flows to a delay state, and S9 is returned.
4. The scheduling job overall process control method based on closed loop management according to claim 1, wherein said S8 comprises:
s81, if the system detects that no corresponding power restoration operation ticket exists in Y min before the start of the power restoration time of the maintenance list, a reminding frame is popped up and sounds, a dispatcher is reminded to timely send out the ticket, the power transmission time is prevented from being delayed, and S9 is returned;
s82, after the record corresponding to the registration form is permitted to be filed, if the system detects that the corresponding equipment has abnormal information on the EMS, a reminding frame is popped up and sounds, a dispatcher is reminded to evaluate whether the abnormal information can influence the duplicate operation, and S9 is returned;
s83, after finishing the permission registration form, for Y min, if the power restoration operation is not executed, popping up a reminding frame and making sound to remind a dispatcher of operation, avoiding delaying power transmission time, and returning to S9; after the duplicate operation ticket is filed for Y min, if the system detects that the duplicate operation time, the permission time or the error filling time is not filled on the maintenance ticket, a reminding frame is popped up and sounds, a dispatcher is reminded of timely refilling or modifying the time, the maintenance ticket is transferred to the filing state, meanwhile, the completion degree of a total workload progress bar and a dispatcher workload progress bar is increased, the maintenance ticket is transferred to the filing state, and S9 is returned.
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CN111144767A (en) * | 2019-12-29 | 2020-05-12 | 广东电网有限责任公司电力调度控制中心 | Power dispatching task distribution pipe control system |
CN111199460A (en) * | 2019-12-30 | 2020-05-26 | 云南电网有限责任公司 | Power grid dispatching and maintenance application form processing method and system |
CN111582819B (en) * | 2020-04-29 | 2022-02-11 | 广东电网有限责任公司电力调度控制中心 | Method and device for filling maintenance list of power grid power transmission and transformation equipment |
CN112990791B (en) * | 2021-05-11 | 2021-07-30 | 广东电网有限责任公司佛山供电局 | Scheduling work order flow monitoring method and system based on intelligent voice |
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