CN116245331A - Power generation equipment maintenance method and device, storage medium and electronic equipment - Google Patents

Abstract

The present disclosure relates to a power generation equipment maintenance method, a device, a storage medium and an electronic device, the method is applied to an intelligent maintenance management and control platform, the platform stores maintenance strategies of a plurality of power generation equipment to be maintained, the maintenance strategies include maintenance period determination strategies and maintenance personnel determination strategies, the method includes: determining a maintenance period of each power generation device to be maintained according to a maintenance period determining strategy corresponding to each power generation device to be maintained; determining the next overhaul time of each power generation device to be overhauled according to the overhaul period of each power generation device to be overhauled and the last overhaul time of each power generation device to be overhauled; responding to the current time to reach the next overhaul time of any power generation equipment to be overhauled, and determining a target overhaul worker from a plurality of overhaul workers according to an overhaul worker determination strategy corresponding to the power generation equipment to be overhauled; and sending the next overhaul time corresponding to the power generation equipment to be overhauled to a user terminal of a target overhauling staff.

Description

Power generation equipment maintenance method and device, storage medium and electronic equipment

Technical Field

The disclosure relates to the technical field of power generation equipment overhaul, in particular to a power generation equipment overhaul method, a device, a storage medium and electronic equipment.

Background

With the development of the power industry, particularly the construction of large-capacity units, the management of power generation equipment is focused on the maintenance management of the power generation equipment. The quality of power generation equipment management directly influences the economic benefit of the power plant. In the related art, the maintenance flow is usually to carry out large-scale unified maintenance on all power generation equipment, and the problem of low maintenance efficiency exists.

Disclosure of Invention

The disclosure aims to provide a power generation equipment overhauling method, a device, a storage medium and electronic equipment, so as to solve the problems in the related art.

To achieve the above object, according to a first aspect of the embodiments of the present disclosure, there is provided a power generation equipment maintenance method applied to an intelligent maintenance management and control platform storing maintenance policies of a plurality of power generation equipment to be maintained, the maintenance policies including a maintenance cycle determination policy and a maintenance personnel determination policy, the power generation equipment maintenance method including:

determining the maintenance period of each power generation device to be maintained according to a maintenance period determining strategy corresponding to each power generation device to be maintained;

determining the next overhaul time of each power generation device to be overhauled according to the overhaul period of each power generation device to be overhauled and the last overhaul time of each power generation device to be overhauled;

responding to the next overhaul time of any power generation equipment to be overhauled in the current time, and determining a target overhaul worker from a plurality of overhaul workers according to an overhaul worker determination strategy corresponding to the power generation equipment to be overhauled;

and sending the next overhaul time corresponding to the power generation equipment to be overhauled to a user terminal of the target overhaul personnel at least, so that the target overhaul personnel overhauls the power generation equipment to be overhauled in the next overhaul time.

Optionally, the overhaul strategy further comprises an overhaul tool determination strategy, and the power generation equipment overhaul method further comprises:

determining a target overhaul tool from a plurality of overhaul tools according to an overhaul tool determination strategy corresponding to each power generation device to be overhauled;

the step of sending at least the next overhaul time corresponding to the power generation equipment to be overhauled to the user terminal of the target overhauling personnel so that the target overhauling personnel overhauls the power generation equipment to be overhauled in the next overhaul time comprises the following steps:

and sending the next overhaul time and the target overhaul tool corresponding to the power generation equipment to be overhauled to the user terminal of the target overhaul personnel, so that the target overhaul personnel overhauls the power generation equipment to be overhauled by using the target overhaul tool in the next overhaul time.

Optionally, the wisdom overhauls management and control platform record has each the idle state of maintainer, and each the equipment type of maintainer's maintenance, according to wait to overhaul the maintainer that power generation facility corresponds confirms the tactics, confirms the target maintainer in a plurality of maintainers, includes:

and determining a target maintainer which is in an idle state and matched with the equipment type of the power generation equipment to be overhauled from the plurality of maintainers according to the equipment type of the power generation equipment to be overhauled.

Optionally, the method further comprises:

obtaining an overhaul quality score after the last overhaul is completed, wherein the overhaul quality score is used for representing the overhaul capacity of a target overhaul worker on the power generation equipment to be overhauled;

according to the equipment type of the power generation equipment to be overhauled, determining a target overhauling staff which is in an idle state and is matched with the equipment type of the power generation equipment to be overhauled from a plurality of overhauling staff at least, wherein the method comprises the following steps:

according to the equipment type of the power generation equipment to be overhauled, determining candidate overhaulers which are in an idle state and are matched with the equipment type of the power generation equipment to be overhauled from the plurality of overhaulers;

and under the condition that a plurality of candidate overhauling staff are provided, determining the target overhauling staff from the plurality of candidate overhauling staff according to the overhauling quality scores of each candidate overhauling staff.

Optionally, the intelligent overhaul management and control platform further stores historical overhaul information of the multiple power generation devices to be overhauled, and determining the overhaul period of each power generation device to be overhauled according to an overhaul period determining strategy corresponding to each power generation device to be overhauled includes:

and aiming at any power generation equipment to be overhauled, acquiring historical overhauling information of the power generation equipment to be overhauled, and adjusting an overhauling period corresponding to the power generation equipment to be overhauled according to the historical overhauling information.

Optionally, the historical overhaul information includes a historical overhaul period and a historical overhaul state, and the adjusting the overhaul period corresponding to the power generation equipment to be overhauled according to the historical overhaul information includes:

when the continuous repeated historical overhaul states are all the first states, the historical overhaul period is increased, and the overhaul period corresponding to the power generation equipment to be overhauled is obtained;

and when the continuous repeated historical overhaul states are the second state, shortening the historical overhaul period to obtain the overhaul period corresponding to the power generation equipment to be overhauled.

Optionally, the method further comprises:

and generating a corresponding witness file according to the overhaul completion condition of each power generation equipment to be overhauled, and sending the witness file to a user terminal of a corresponding responsible person so that the responsible person can examine and approve the witness file.

Optionally, the overhaul strategy includes a plurality of overhaul tasks, and the method further includes:

and determining the completed maintenance tasks and the incomplete maintenance tasks of each power generation device to be maintained, and sending the incomplete maintenance tasks to the user terminal of the target maintenance personnel so as to remind the target maintenance personnel to execute the incomplete maintenance tasks.

According to a second aspect of the embodiments of the present disclosure, there is provided a power generation equipment maintenance device applied to an intelligent maintenance management and control platform, the intelligent maintenance management and control platform storing maintenance policies of a plurality of power generation equipment to be maintained, the maintenance policies including maintenance cycle determination policies and maintenance personnel determination policies, the power generation equipment maintenance device including:

the maintenance period determining module is used for determining the maintenance period of each power generation device to be maintained according to a maintenance period determining strategy corresponding to each power generation device to be maintained;

the overhaul time determining module is used for determining the next overhaul time of each power generation device to be overhauled according to the overhaul period of each power generation device to be overhauled and the last overhaul time of each power generation device to be overhauled;

the overhauling personnel determining module is used for responding to the next overhauling time of any power generation equipment to be overhauled in the current time and determining a target overhauling personnel from a plurality of overhauling personnel according to an overhauling personnel determining strategy corresponding to the power generation equipment to be overhauled;

and the overhaul execution module is used for sending the next overhaul time corresponding to the power generation equipment to be overhauled to the user terminal of the target overhaul personnel at least, so that the target overhaul personnel overhauls the power generation equipment to be overhauled in the next overhaul time.

According to a third aspect of embodiments of the present disclosure, there is provided a non-transitory computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of any of the power plant overhaul methods provided by the first aspect of the present disclosure.

According to a fourth aspect of embodiments of the present disclosure, there is provided an electronic device, comprising:

a memory having a computer program stored thereon;

a processor for executing the computer program in the memory to implement the steps of any of the power plant overhaul methods provided by the first aspect of the present disclosure.

Determining the overhaul period of each power generation device to be overhauled by determining a strategy according to the overhaul period corresponding to each power generation device to be overhauled; determining the next overhaul time of each power generation device to be overhauled according to the overhaul period of each power generation device to be overhauled and the last overhaul time of each power generation device to be overhauled; responding to the current time to reach the next overhaul time of any power generation equipment to be overhauled, and determining a target overhaul worker from a plurality of overhaul workers according to an overhaul worker determination strategy corresponding to the power generation equipment to be overhauled; and sending the next overhaul time corresponding to the power generation equipment to be overhauled to a user terminal of the target overhauling personnel at least, so that the target overhauling personnel overhauls the power generation equipment to be overhauled in the next overhaul time. When the current time reaches the next overhaul time corresponding to any power generation equipment to be overhauled, an overhaul task of the power generation equipment to be overhauled is allocated to a target overhaul worker for overhaul, and the overhaul efficiency is improved.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of the disclosure, and are incorporated in and constitute a part of this specification, illustrate the disclosure and together with the description serve to explain, but do not limit the disclosure. In the drawings:

FIG. 1 is a flow chart illustrating a method of servicing a power generation facility, according to an exemplary embodiment;

FIG. 2 is a block diagram illustrating a power plant overhaul apparatus, according to an exemplary embodiment;

fig. 3 is a block diagram of an electronic device, according to an example embodiment.

Detailed Description

Specific embodiments of the present disclosure are described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the disclosure, are not intended to limit the disclosure.

In the overhaul process of the power generation equipment, large-scale unified overhaul is usually carried out on all the power generation equipment, and the problem of low overhaul efficiency exists.

In order to solve the above-mentioned problems, the present disclosure provides a power generation equipment overhaul method. The power generation equipment maintenance method can be applied to an intelligent maintenance management and control platform, the intelligent maintenance management and control platform stores maintenance strategies of a plurality of power generation equipment to be maintained, the maintenance strategies comprise maintenance period determination strategies and maintenance personnel determination strategies, referring to fig. 1, the power generation equipment maintenance method can comprise the following steps:

step S1, determining the overhaul period of each power generation device to be overhauled according to an overhaul period determining strategy corresponding to each power generation device to be overhauled.

The maintenance strategies corresponding to different power generation equipment to be overhauled can be different. The service policies may include a determination policy of a service cycle and a determination policy of a service person. Namely, the maintenance periods and maintenance staff corresponding to different power generation equipment to be maintained can be different.

Illustratively, the maintenance strategies of the power generation equipment 1 to be overhauled include a maintenance period determination strategy 1 and a maintenance personnel determination strategy 1, the maintenance strategies of the power generation equipment 2 to be overhauled include a maintenance period determination strategy 2 and a maintenance personnel determination strategy 2, and the maintenance strategies of the power generation equipment 3 to be overhauled include a maintenance period determination strategy 3 and a maintenance personnel determination strategy 3.

The maintenance period determining strategy can be a strategy for determining the maintenance period of one power generation device to be maintained according to the construction characteristics, the running conditions, the actual technical state, the production technical level and other factors of the power generation device to be maintained.

For each power generation device to be overhauled, the initial overhauling period of the power generation device to be overhauled can be set according to the factors such as the constructional characteristics, the running conditions, the actual technical state and the production technical level of the power generation device to be overhauled.

For example, the maintenance period corresponding to the power generation equipment 1 to be maintained is 2 months, the maintenance period corresponding to the power generation equipment 2 to be maintained is 5 months, and the maintenance period corresponding to the power generation equipment 2 to be maintained is 8 months.

And S2, determining the next overhaul time of each power generation device to be overhauled according to the overhaul period of each power generation device to be overhauled and the last overhaul time of each power generation device to be overhauled.

The intelligent overhaul management and control platform stores historical overhaul time of each power generation equipment to be overhauled, and determines the next overhaul time of each power generation equipment to be overhauled according to the last overhaul time of each power generation equipment to be overhauled and the corresponding overhaul period.

Illustratively, the last maintenance time of the power generation equipment to be maintained is 2022, 8 months and 11 days, the maintenance period of the power generation equipment to be maintained is 2 months, and the next maintenance time of the power generation equipment to be maintained is 2022, 10 months and 11 days.

And step S3, responding to the next overhaul time of any power generation equipment to be overhauled in the current time, and determining a target overhaul worker from a plurality of overhaul workers according to an overhaul worker determination strategy corresponding to the power generation equipment to be overhauled.

And S4, at least transmitting the next overhaul time corresponding to the power generation equipment to be overhauled to the user terminal of the target overhaul personnel, so that the target overhaul personnel overhauls the power generation equipment to be overhauled in the next overhaul time.

The service personnel determination policy may be a policy that determines service personnel based on whether the service personnel have the ability to service a certain power plant to be serviced.

Aiming at each power generation equipment to be overhauled, overhauling personnel with overhauling capacity of the power generation equipment to be overhauled, namely target overhauling personnel, can be screened out from a plurality of overhauling personnel.

Illustratively, the next overhaul time of the power generation equipment 1 to be overhauled is 2022, 10, 11, 28, 2022, 11, 3, 5, 6. The corresponding target overhauling staff of the power generation equipment 1 to be overhauled are A, B and C; the corresponding target overhauling staff of the power generation equipment 2 to be overhauled are A, C and T; the corresponding target overhauling staff of the power generation equipment 3 to be overhauled are B, C and T.

When the current time reaches 2022, 10, 11 days, dispatching maintenance tasks for maintaining the power generation equipment 1 to be maintained to the first, second and third; when the current time reaches 2022, 11 and 28 days, dispatching maintenance tasks for maintaining the power generation equipment 2 to be maintained to the first, third and fourth devices; and when the current time reaches 2023, 5 and 6 days, dispatching maintenance tasks for maintaining the power generation equipment 3 to be maintained to the B, C and T.

Determining the overhaul period of each power generation device to be overhauled by determining a strategy according to the overhaul period corresponding to each power generation device to be overhauled; determining the next overhaul time of each power generation device to be overhauled according to the overhaul period of each power generation device to be overhauled and the last overhaul time of each power generation device to be overhauled; responding to the current time to reach the next overhaul time of any power generation equipment to be overhauled, and determining a target overhaul worker from a plurality of overhaul workers according to an overhaul worker determination strategy corresponding to the power generation equipment to be overhauled; and sending the next overhaul time corresponding to the power generation equipment to be overhauled to a user terminal of the target overhauling personnel at least, so that the target overhauling personnel overhauls the power generation equipment to be overhauled in the next overhaul time. When the current time reaches the next overhaul time corresponding to any power generation equipment to be overhauled, an overhaul task of the power generation equipment to be overhauled is allocated to a target overhaul worker for overhaul, and the overhaul efficiency is improved.

In one possible embodiment, the service policy further includes a service tool determination policy, and the power plant service method may further include:

determining a target overhaul tool from a plurality of overhaul tools according to an overhaul tool determination strategy corresponding to each power generation device to be overhauled;

at least the next maintenance time corresponding to the power generation equipment to be maintained is sent to the user terminal of the target maintenance personnel, so that the target maintenance personnel maintain the power generation equipment to be maintained in the next maintenance time, and the method comprises the following steps:

and sending the next overhaul time and the target overhaul tool corresponding to the power generation equipment to be overhauled to the user terminal of the target overhaul personnel so that the target overhaul personnel overhauls the power generation equipment to be overhauled by using the target overhaul tool in the next overhaul time.

The service tool determination policy may be a policy that determines a service tool based on whether the service tool can provide support for servicing a certain power plant to be serviced.

For each power plant to be serviced, a service tool, i.e., a target service tool, that is capable of providing support for servicing the power plant to be serviced may be screened from a plurality of service tools.

Illustratively, the target overhaul tools corresponding to the power generation equipment 1 to be overhauled are a tool 1, a tool 2 and a tool 3; the target overhaul tools corresponding to the power generation equipment 2 to be overhauled are a tool 1, a tool 4 and a tool 5; the target overhaul tools corresponding to the power generation equipment 3 to be overhauled are a tool 3, a tool 6 and a tool 7.

In one possible implementation manner, the intelligent maintenance management and control platform records an idle state of each maintenance person and a maintenance equipment type of each maintenance person, determines a target maintenance person from a plurality of maintenance persons according to a maintenance person determination policy corresponding to a power generation equipment to be maintained, and includes:

and determining a target maintainer which is in an idle state and matches the equipment type of the power generation equipment to be overhauled from a plurality of maintainers according to the equipment type of the power generation equipment to be overhauled.

The power generation devices may include generators, motors, transformers, circuit breakers, fuses, disconnectors, contactors, current limiting reactors, surge protectors, and the like. The generator, the motor and the transformer belong to equipment types for producing and converting electric energy, the circuit breaker, the fuse, the isolating switch and the contactor belong to equipment types for switching on or switching off electric equipment, and the current limiting reactor and the surge protector belong to equipment types for limiting current.

For maintenance personnel, different power generation equipment belonging to the same equipment type has a certain commonality, so that the target maintenance personnel can be determined according to the equipment type of the power generation equipment.

The target overhauling staff which is in an idle state and is matched with the equipment type of the power generation equipment to be overhauled is determined, so that the overhauling staff is arranged more reasonably, and the overhauling efficiency is improved.

In one possible embodiment, the power plant overhaul method further comprises:

obtaining an overhaul quality score after the last overhaul is completed, wherein the overhaul quality score is used for representing the overhaul capacity of a target overhaul worker to overhaul the power generation equipment;

according to the equipment type of the power generation equipment to be overhauled, determining a target overhauling staff which is in an idle state and matches the equipment type of the power generation equipment to be overhauled with the equipment type of the power generation equipment to be overhauled from a plurality of overhauling staff at least, wherein the method comprises the following steps:

according to the equipment type of the power generation equipment to be overhauled, determining candidate overhaulers which are in an idle state and are matched with the equipment type of the power generation equipment to be overhauled from a plurality of overhaulers;

and under the condition that a plurality of candidate overhauling staff are provided, determining a target overhauling staff from the plurality of candidate overhauling staff according to the overhauling quality score of each candidate overhauling staff.

And performing performance test on the overhauled power generation equipment, and comparing the overhauled performance test parameters with the performance test parameters before overhauling to obtain overhauling quality scores. The performance test parameters may be, but are not limited to, power generation coal consumption, heat supply capacity, main steam temperature, boiler thermal efficiency, flue gas temperature, and the like.

And determining a target overhauling person from the plurality of candidate overhauling persons according to the overhauling quality scores.

Illustratively, the service quality score for candidate service personnel 1 is 89, the service quality score for candidate service personnel 2 is 73, the service quality score for candidate service personnel 3 is 91, and the service quality score for candidate service personnel 4 is 78. According to the maintenance quality score from high to low, the method sequentially comprises the following steps: candidate service staff 3, candidate service staff 1, candidate service staff 4, candidate service staff 2. If the name of the target maintainer is 2, the target maintainer is a candidate maintainer 3 and a candidate maintainer 1; if the name of the target maintainer is 3, the target maintainer is a candidate maintainer 3, a candidate maintainer 1 and a candidate maintainer 4.

The overhaul quality score of the overhaul personnel is used for screening the target overhaul personnel, so that the overhaul quality can be further improved.

In one possible implementation manner, the intelligent overhaul management and control platform further stores historical overhaul information of a plurality of power generation devices to be overhauled, and determining an overhaul period of each power generation device to be overhauled according to an overhaul period determination strategy corresponding to each power generation device to be overhauled includes:

and aiming at any power generation equipment to be overhauled, acquiring historical overhauling information of the power generation equipment to be overhauled, and adjusting the overhauling period corresponding to the power generation equipment to be overhauled according to the historical overhauling information.

In one possible embodiment, the historical overhaul information includes a historical overhaul period and a historical overhaul state, and adjusting an overhaul period corresponding to the power generation device to be overhauled according to the historical overhaul information includes:

when the continuous repeated historical overhaul states are all the first states, the historical overhaul period is increased, and the overhaul period corresponding to the power generation equipment to be overhauled is obtained;

and when the continuous repeated historical overhaul states are the second state, shortening the historical overhaul period to obtain the overhaul period corresponding to the power generation equipment to be overhauled.

Wherein the first state may represent an excellent state and the second state may represent a non-excellent state. The division of the excellent state and the non-excellent state can be specifically set according to the actual situation.

When the continuous repeated historical overhaul states are the first states, the state representing the power generation equipment to be overhauled is continuous and excellent, and the overhaul period of the power generation equipment to be overhauled can be properly prolonged, so that the historical overhaul period is prolonged, and the overhaul period corresponding to the power generation equipment to be overhauled is obtained.

When the continuous repeated historical overhaul states are the second states, the states of the power generation equipment to be overhauled are represented to be continuous and non-optimal, and the overhaul period of the power generation equipment to be overhauled can be properly shortened, so that the historical overhaul period is shortened, and the overhaul period corresponding to the power generation equipment to be overhauled is obtained.

The number of consecutive times may be set according to practical experience, for example, 8 times.

Through the history maintenance state, the adaptation adjustment maintenance cycle to carry out more reasonable, more efficient arrangement, improve maintenance energy efficiency.

In one possible embodiment, the power plant overhaul method further comprises:

and generating a corresponding witness file according to the overhaul completion condition of each power generation device to be overhauled, and sending the witness file to the user terminal of the corresponding responsible person so as to enable the responsible person to examine and approve the witness file.

Different witness files are generated at different overhaul nodes, and the witness files can be, but are not limited to, overhaul task books, operation file lists, overhaul programs, inspection orders, high-risk operation files, pre-overhaul performance test reports, overhaul daily reports, overhaul weekly reports, overhaul monthly reports, disassembly reports, quality defect reports, equipment-to-goods orders, operation bottoming, cold state acceptance reports, hot state acceptance reports, overhaul summaries, post-overhaul performance test reports and the like.

The witness file is sent to the user terminal of the corresponding responsible person, so that the responsible person examines and approves the witness file, and through an on-line mode, the complicated examination and approval process and operation under the line are avoided, the time is saved, and the overhaul management efficiency is improved.

In one possible embodiment, the service strategy includes a plurality of service tasks, and the power plant service method further includes:

and determining the completed maintenance tasks and the incomplete maintenance tasks of each power generation device to be maintained, and sending the incomplete maintenance tasks to the user terminal of the target maintenance personnel so as to remind the target maintenance personnel to execute the incomplete maintenance tasks.

In order to implement the above method embodiments, referring to fig. 2, the present embodiment provides a power generation equipment maintenance device, which is applied to an intelligent maintenance management and control platform, where the intelligent maintenance management and control platform stores a plurality of maintenance policies of power generation equipment to be overhauled, the maintenance policies include a maintenance period determination policy and a maintenance personnel determination policy, and the power generation equipment maintenance device 400 includes: a service period determination module 401, a service time determination module 402, a service personnel determination module 403, and a service execution module 404.

The overhaul period determining module 401 is configured to determine an overhaul period of each power generation device to be overhauled according to an overhaul period determining policy corresponding to each power generation device to be overhauled;

the overhaul time determining module 402 is configured to determine a next overhaul time of each power generation device to be overhauled according to an overhaul period of each power generation device to be overhauled and a last overhaul time of each power generation device to be overhauled;

the overhauling personnel determining module 403 is configured to determine a target overhauling personnel from a plurality of overhauling personnel according to an overhauling personnel determining policy corresponding to the power generation equipment to be overhauled in response to the current time reaching the next overhauling time of any power generation equipment to be overhauled;

and the overhaul execution module 404 is configured to send at least the next overhaul time corresponding to the power generation equipment to be overhauled to the user terminal of the target overhaul personnel, so that the target overhaul personnel overhauls the power generation equipment to be overhauled in the next overhaul time.

Optionally, the service policy further includes a service tool determination policy, and the power plant service apparatus 400 further includes a service tool determination module:

the overhaul tool determining module is used for determining a target overhaul tool from a plurality of overhaul tools according to an overhaul tool determining strategy corresponding to each power generation device to be overhauled;

the overhaul execution module 404 is specifically configured to: and sending the next overhaul time and the target overhaul tool corresponding to the power generation equipment to be overhauled to the user terminal of the target overhaul personnel so that the target overhaul personnel overhauls the power generation equipment to be overhauled by using the target overhaul tool in the next overhaul time.

Optionally, the intelligent overhaul management and control platform records an idle state of each maintainer and an overhaul equipment type of each maintainer, and the maintainer determining module 403 is specifically configured to:

and determining a target maintainer which is in an idle state and matches the equipment type of the power generation equipment to be overhauled from a plurality of maintainers according to the equipment type of the power generation equipment to be overhauled.

Optionally, the power plant overhaul device 400 further comprises an overhaul scoring module:

the overhaul scoring module is used for obtaining an overhaul quality score after the last overhaul is completed, and the overhaul quality score is used for representing the overhaul capacity of a target overhaul worker on the power generation equipment to be overhauled;

the service personnel determining module 403 is specifically configured to:

according to the equipment type of the power generation equipment to be overhauled, determining candidate overhaulers which are in an idle state and are matched with the equipment type of the power generation equipment to be overhauled from a plurality of overhaulers;

and under the condition that a plurality of candidate overhauling staff are provided, determining a target overhauling staff from the plurality of candidate overhauling staff according to the overhauling quality score of each candidate overhauling staff.

Optionally, the intelligent overhaul management and control platform further stores historical overhaul information of a plurality of power generation devices to be overhauled, and the overhaul period determining module 401 is specifically configured to:

and aiming at any power generation equipment to be overhauled, acquiring historical overhauling information of the power generation equipment to be overhauled, and adjusting the overhauling period corresponding to the power generation equipment to be overhauled according to the historical overhauling information.

Optionally, the historical overhaul information includes a historical overhaul period and a historical overhaul state, and the overhaul period determining module 401 is specifically configured to:

when the continuous repeated historical overhaul states are all the first states, the historical overhaul period is increased, and the overhaul period corresponding to the power generation equipment to be overhauled is obtained;

and when the continuous repeated historical overhaul states are the second state, shortening the historical overhaul period to obtain the overhaul period corresponding to the power generation equipment to be overhauled.

Optionally, the power generation equipment servicing device 400 further comprises an approval module:

and the approval module is used for generating a corresponding witness file according to the overhaul completion condition of each power generation equipment to be overhauled, and sending the witness file to the user terminal of the corresponding responsible person so as to enable the responsible person to approve the witness file.

Optionally, the overhaul strategy includes a plurality of overhaul tasks, and the power generation equipment overhaul device 400 further includes a task reminding module:

the task reminding module is used for determining the completed maintenance tasks and the incomplete maintenance tasks of each power generation device to be maintained, and sending the incomplete maintenance tasks to the user terminal of the target maintenance personnel so as to remind the target maintenance personnel to execute the incomplete maintenance tasks.

The specific manner in which the various modules perform the operations in the apparatus of the above embodiments have been described in detail in connection with the embodiments of the method, and will not be described in detail herein.

The intelligent service management platform may be an electronic device and FIG. 3 is a block diagram of an electronic device 1900 according to an example embodiment. For example, electronic device 1900 may be provided as a server. Referring to fig. 3, the electronic device 1900 includes a processor 1922, which may be one or more in number, and a memory 1932 for storing computer programs executable by the processor 1922. The computer program stored in memory 1932 may include one or more modules each corresponding to a set of instructions. Further, the processor 1922 may be configured to execute the computer program to perform the power plant overhaul method described above.

In addition, the electronic device 1900 may further include a power component 1926 and a communication component 1950, the power component 1926 may be configured to perform power management of the electronic device 1900, and the communication component 1950 may be configured to enable communication of the electronic device 1900, e.g., wired or wireless communication. In addition, the electronic device 1900 may also include an input/output (I/O) interface 1958. Electronic device 1900 may operate based on an operating system stored in memory 1932.

In another exemplary embodiment, a computer readable storage medium is also provided comprising program instructions which, when executed by a processor, implement the steps of the power plant overhaul method described above. For example, the non-transitory computer readable storage medium may be the memory 1932 including program instructions described above that are executable by the processor 1922 of the electronic device 1900 to perform the power generation equipment servicing method described above.

In another exemplary embodiment, a computer program product is also provided, the computer program product comprising a computer program executable by a programmable apparatus, the computer program having code portions for performing the above-described power plant overhaul method when executed by the programmable apparatus.

The preferred embodiments of the present disclosure have been described in detail above with reference to the accompanying drawings, but the present disclosure is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solutions of the present disclosure within the scope of the technical concept of the present disclosure, and all the simple modifications belong to the protection scope of the present disclosure.

In addition, the specific features described in the above embodiments may be combined in any suitable manner without contradiction. The various possible combinations are not described further in this disclosure in order to avoid unnecessary repetition.

Moreover, any combination between the various embodiments of the present disclosure is possible as long as it does not depart from the spirit of the present disclosure, which should also be construed as the disclosure of the present disclosure.

Claims (11)

1. The utility model provides a power generation equipment maintenance method which characterized in that is applied to wisdom maintenance management and control platform, wisdom maintenance management and control platform stores a plurality of maintenance strategies of treating maintenance power generation equipment, maintenance strategies include maintenance cycle determination strategy and maintenance personnel determination strategy, power generation equipment maintenance method includes:

determining the maintenance period of each power generation device to be maintained according to a maintenance period determining strategy corresponding to each power generation device to be maintained;

determining the next overhaul time of each power generation device to be overhauled according to the overhaul period of each power generation device to be overhauled and the last overhaul time of each power generation device to be overhauled;

responding to the next overhaul time of any power generation equipment to be overhauled in the current time, and determining a target overhaul worker from a plurality of overhaul workers according to an overhaul worker determination strategy corresponding to the power generation equipment to be overhauled;

and sending the next overhaul time corresponding to the power generation equipment to be overhauled to a user terminal of the target overhaul personnel at least, so that the target overhaul personnel overhauls the power generation equipment to be overhauled in the next overhaul time.

2. The method of claim 1, wherein the service strategy further comprises a service tool determination strategy, the power plant service method further comprising:

determining a target overhaul tool from a plurality of overhaul tools according to an overhaul tool determination strategy corresponding to each power generation device to be overhauled;

the step of sending at least the next overhaul time corresponding to the power generation equipment to be overhauled to the user terminal of the target overhauling personnel so that the target overhauling personnel overhauls the power generation equipment to be overhauled in the next overhaul time comprises the following steps:

and sending the next overhaul time and the target overhaul tool corresponding to the power generation equipment to be overhauled to the user terminal of the target overhaul personnel, so that the target overhaul personnel overhauls the power generation equipment to be overhauled by using the target overhaul tool in the next overhaul time.

3. The method of claim 1, wherein the intelligent maintenance management platform records an idle state of each maintenance person and a maintenance equipment type of each maintenance person, and the determining, according to a maintenance person determination policy corresponding to the power generation equipment to be maintained, a target maintenance person from a plurality of maintenance persons includes:

and determining a target maintainer which is in an idle state and matched with the equipment type of the power generation equipment to be overhauled from the plurality of maintainers according to the equipment type of the power generation equipment to be overhauled.

4. A method according to claim 3, characterized in that the method further comprises:

obtaining an overhaul quality score after the last overhaul is completed, wherein the overhaul quality score is used for representing the overhaul capacity of a target overhaul worker on the power generation equipment to be overhauled;

according to the equipment type of the power generation equipment to be overhauled, determining a target overhauling staff which is in an idle state and is matched with the equipment type of the power generation equipment to be overhauled from a plurality of overhauling staff at least, wherein the method comprises the following steps:

according to the equipment type of the power generation equipment to be overhauled, determining candidate overhaulers which are in an idle state and are matched with the equipment type of the power generation equipment to be overhauled from the plurality of overhaulers;

and under the condition that a plurality of candidate overhauling staff are provided, determining the target overhauling staff from the plurality of candidate overhauling staff according to the overhauling quality scores of each candidate overhauling staff.

5. The method of claim 1, wherein the intelligent service management and control platform further stores historical service information of the plurality of power generation devices to be serviced, and wherein determining the service period of each power generation device to be serviced according to a service period determination policy corresponding to each power generation device to be serviced comprises:

and aiming at any power generation equipment to be overhauled, acquiring historical overhauling information of the power generation equipment to be overhauled, and adjusting an overhauling period corresponding to the power generation equipment to be overhauled according to the historical overhauling information.

6. The method of claim 5, wherein the historical overhaul information includes a historical overhaul period and a historical overhaul state, and the adjusting the overhaul period corresponding to the power generation device to be overhauled according to the historical overhaul information includes:

when the continuous repeated historical overhaul states are all the first states, the historical overhaul period is increased, and the overhaul period corresponding to the power generation equipment to be overhauled is obtained;

and when the continuous repeated historical overhaul states are the second state, shortening the historical overhaul period to obtain the overhaul period corresponding to the power generation equipment to be overhauled.

7. The method according to claim 1, wherein the method further comprises:

and generating a corresponding witness file according to the overhaul completion condition of each power generation equipment to be overhauled, and sending the witness file to a user terminal of a corresponding responsible person so that the responsible person can examine and approve the witness file.

8. The method of claim 1, wherein the service policy includes a plurality of service tasks, the method further comprising:

and determining the completed maintenance tasks and the incomplete maintenance tasks of each power generation device to be maintained, and sending the incomplete maintenance tasks to the user terminal of the target maintenance personnel so as to remind the target maintenance personnel to execute the incomplete maintenance tasks.

9. The utility model provides a power generation equipment overhauls device, its characterized in that is applied to wisdom maintenance management and control platform, wisdom maintenance management and control platform stores a plurality of maintenance strategies of waiting to overhaul power generation equipment, maintenance strategies includes maintenance cycle determination strategy and maintenance personnel determination strategy, power generation equipment overhauls device includes:

the maintenance period determining module is used for determining the maintenance period of each power generation device to be maintained according to a maintenance period determining strategy corresponding to each power generation device to be maintained;

the overhaul time determining module is used for determining the next overhaul time of each power generation device to be overhauled according to the overhaul period of each power generation device to be overhauled and the last overhaul time of each power generation device to be overhauled;

the overhauling personnel determining module is used for responding to the next overhauling time of any power generation equipment to be overhauled in the current time and determining a target overhauling personnel from a plurality of overhauling personnel according to an overhauling personnel determining strategy corresponding to the power generation equipment to be overhauled;

and the overhaul execution module is used for sending the next overhaul time corresponding to the power generation equipment to be overhauled to the user terminal of the target overhaul personnel at least, so that the target overhaul personnel overhauls the power generation equipment to be overhauled in the next overhaul time.

10. A non-transitory computer readable storage medium having stored thereon a computer program, characterized in that the program when executed by a processor realizes the steps of the method according to any of claims 1-8.

11. An electronic device, comprising:

a memory having a computer program stored thereon;

a processor for executing the computer program in the memory to implement the steps of the method of any one of claims 1-8.

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