CN117333119A - Technical specification inspection method and system for power grid equipment - Google Patents

Abstract

The application relates to the technical field of material management, and discloses a technical specification examination method and a system of power grid equipment, which can improve the intelligent examination level, ensure the closed-loop traceability of examination results and improve the operation automation level of examination experts and purchasing responsibility examination stages under the examination scene of purchasing plans of the power grid equipment. The method comprises the following steps: importing a purchasing plan of the power grid equipment; performing purchase mode examination on the power grid equipment purchase plan, and determining a technical specification ID of the power grid equipment purchase plan; performing curing ID examination on the power grid equipment purchasing plan according to the technical specification ID, and outputting a curing ID examination result generated based on at least one first examination requirement; importing a correction table aiming at a grid equipment purchasing plan with unqualified curing ID examination, and performing correction table examination; and based on the technical specification ID, performing non-curing ID examination on the power grid equipment purchasing plan, and outputting a non-curing ID examination result generated based on at least one second examination requirement.

Description

Technical specification inspection method and system for power grid equipment

Technical Field

The application relates to the technical field of material management, in particular to a technical specification inspection method and system of power grid equipment.

Background

The material purchasing meter of the power grid equipment and the like is usually executed by a design department in a design stage, and is inspected by the material department in an inspection stage. At present, in the examination stage of a material purchase plan, the material department can only concentrate the examination work of the purchase plan to be carried out on line in the form of an organization examination meeting due to the lack of an effective on-line examination tool. Specifically, during the examination session, the expert mainly performs the tasks of distributing and executing the examination tasks of the purchasing plan, sorting and summarizing the examination results and the like by manually processing the form of the table. And because of the complicated material types such as purchased power grid equipment and the like, the material plan has a plurality of items, and experts need to manually examine the purchase plan submitted by the system programming one by one on line. Therefore, the inspection process of information such as purchasing modes, solidified identification numbers (identity document, IDs) and the like in the purchasing plan of the power grid equipment is complicated, and a large amount of manpower is wasted.

Disclosure of Invention

The embodiment of the application provides a technical specification inspection method and a system for power grid equipment, which can improve the intelligent inspection level, ensure the closed-loop traceability of inspection results and improve the operation automation level of inspection experts and purchase responsibility inspection stages under the inspection scene of the purchase plan of the power grid equipment.

In a first aspect, an embodiment of the present application provides a method for inspecting a technical specification of a power grid device, where the method includes: importing a power grid equipment purchase plan, wherein the power grid equipment purchase plan comprises at least one of a headquarter purchase application number, a project unit and an engineering project name; performing purchase mode examination on the power grid equipment purchase plan, and determining a technical specification ID of the power grid equipment purchase plan; performing curing ID examination on the power grid equipment purchasing plan according to the technical specification ID, and outputting a curing ID examination result, wherein the curing ID examination result is generated based on at least one first examination requirement; importing a correction table aiming at a grid equipment purchasing plan with unqualified curing ID examination, and performing correction table examination; based on the technical specification ID, non-curing ID examination is performed on the power grid equipment purchasing plan, and a non-curing ID examination result is output, wherein the curing ID examination result is generated based on at least one second examination requirement.

Therefore, the inspection tool provided by the application realizes automatic inspection judgment on the cured ID, the non-cured ID and the like, improves the intelligent inspection level and avoids consuming more manpower. In addition, the flow control flow of the method can provide various examination requirements so as to ensure that an expert completes examination work item by item according to the examination requirements and ensure that examination flow specifications and examination results are traceable in a closed loop. And based on the examination results such as the cured ID examination result and the non-cured ID examination result, the method can facilitate the review of experts and the further modification of project institutions, and improves the automation level of the operations of the examination experts and the purchasing responsibility examination stage.

In one possible implementation, the at least one first audit requirement includes: whether the corresponding relation between the materials and the technical specifications is correct or not, and whether the solidification ID is frozen or not. For example, the first review requirements for different technical specification IDs are different.

In one possible implementation manner, the curing ID inspection result further includes at least one of the following: technical specification ID of power grid equipment purchasing plan, project unit, project name, headquarter purchasing application number, purchasing mode and cargo description.

In one possible implementation manner, the method further includes: and generating a first disqualification list and a first return modification list corresponding to the curing ID examination according to the curing ID examination result. The inspection tool in the application can automatically export the unqualified list, the return modification list and the like of the inspection result after completing the automatic inspection, is convenient for the expert to review and the project organization to further modify, and improves the operation automation level of the inspection expert and the purchasing responsibility inspection stage.

In one possible implementation, the method comprises the steps of importing the correction table for the grid equipment purchase plan with failed curing ID inspection and performing correction table inspection, wherein the method comprises the steps of importing the correction table for the grid equipment purchase plan with failed curing ID inspection and performing correction table inspection based on the failure list and the return modification list corresponding to the curing ID inspection.

In one possible implementation, the method includes performing a curing ID inspection on the grid equipment procurement plan according to the technical specification ID, and outputting a curing ID inspection result, including: based on the pre-imported material main data and a curing ID corresponding relation table, performing curing ID examination on the power grid equipment purchasing plan according to the technical specification ID, and outputting a curing ID examination result; wherein, the material main data includes material code and material data.

In one possible implementation, the material master data and curing ID correspondence table is obtained synchronously from the enterprise resource planning ERP system.

In one possible implementation, the non-curing ID inspection results include at least one of: a second reject list, reporting material, a second return modifier.

In one possible implementation manner, the method further includes: the non-curing ID inspection result comprises a second unqualified list, and a modified material list or a modified technical specification book is imported, wherein the modified material list and the modified technical specification book are generated based on the second unqualified list; the non-solidified ID corresponding to the result includes reporting material, importing the comment of the commentary, the comment of the commentary is generated based on the reporting material; and re-performing non-curing ID examination on the purchasing plan of the power grid equipment according to the modified bill of materials, the modified technical specification and the opinion of the commentary.

In one possible implementation, the at least one second examination requirement includes: whether the material selection of the power grid equipment purchasing plan is correct, whether the material quantity is correct, whether the technical specification book generated aiming at the power grid equipment purchasing plan is consistent with the description of the materials, whether the technical parameters in the technical specification book are correctly filled, whether the drawing generated aiming at the power grid equipment purchasing plan is consistent with purchasing application and the technical specification book, and whether the technical specification book has information added in disorder; whether the compiling template of the technical specification is a small interval or not; whether the power grid equipment purchase plan has a continuous extension project or not.

It can be understood that the method can embed the examination requirements into the examination tool according to the examination contents and standards of different product contents, so that each purchasing plan can be examined item by the expert according to the technical specification ID in the examination process, and the examination flow specification and examination result are guaranteed to be traceable in a closed loop.

In one possible implementation manner, the non-curing ID inspection is performed on the power grid equipment purchasing plan based on the technical specification ID, and the non-curing ID inspection result is output, including: based on the technical specification ID, according to the examination result of at least one second examination requirement, automatically adjusting the purchase mode corresponding to the grid equipment purchase plan, and outputting a non-solidified ID examination result. Thus, the method is beneficial to improving the operation automation level of the purchased and project after the grid equipment purchase plan is checked.

In a second aspect, an embodiment of the present application provides a technical specification inspection system for a power grid device, the system including: the data importing module is used for importing a power grid equipment purchasing plan, wherein the power grid equipment purchasing plan comprises at least one of a headquarter purchasing application number, a project unit and an engineering project name; the purchasing mode examination module is used for performing purchasing mode examination on the purchasing plan of the power grid equipment and determining the technical specification ID of the purchasing plan of the power grid equipment; the curing ID examination module is used for carrying out curing ID examination on the power grid equipment purchasing plan according to the technical specification ID, outputting a curing ID examination result, and generating the curing ID examination result based on at least one first examination requirement; the correction table examination module is used for importing a correction table aiming at the grid equipment purchasing plan with unqualified curing ID examination and carrying out correction table examination; and the non-curing ID examination module is used for carrying out non-curing ID examination on the power grid equipment purchasing plan based on the technical specification ID, outputting a non-curing ID examination result, and generating a curing ID examination result based on at least one second examination requirement.

In one possible implementation, the at least one first audit requirement includes: whether the corresponding relation between the materials and the technical specifications is correct or not, and whether the solidification ID is frozen or not.

In one possible implementation manner, the curing ID inspection result further includes at least one of the following: technical specification ID of power grid equipment purchasing plan, project unit, project name, headquarter purchasing application number, purchasing mode and cargo description.

In one possible implementation manner, the above-mentioned curing ID inspection module is further configured to generate a first reject list and a first return modification list corresponding to the curing ID inspection according to the curing ID inspection result.

In one possible implementation, the correction table review module is specifically configured to review the corresponding reject list and return modification list based on the curing ID, import the correction table for the grid equipment procurement plan that fails the curing ID, and perform the correction table review.

In one possible implementation manner, the curing ID inspection module is specifically configured to perform curing ID inspection on the power grid equipment purchasing plan according to the technical specification ID based on the pre-imported material main data and the curing ID correspondence table, and output a curing ID inspection result; wherein, the material main data includes material code and material data.

In one possible implementation, the material master data and curing ID correspondence table is obtained synchronously from the enterprise resource planning ERP system.

In one possible implementation, the non-curing ID inspection results include at least one of: a second reject list, reporting material, a second return modifier.

In one possible implementation manner, the system further includes: the inspection correction module is used for including a second unqualified list corresponding to the non-solidified ID inspection result, and importing a modified bill of materials or a modified technical specification, wherein the modified bill of materials and the modified technical specification are generated based on the second unqualified list; the non-solidified ID corresponding to the result includes reporting material, importing the comment of the commentary, the comment of the commentary is generated based on the reporting material; and the non-curing ID examination module is also used for carrying out non-curing ID examination on the power grid equipment purchasing plan again according to the modified bill of materials, the modified technical specification and the comments of the commentary.

In one possible implementation, the at least one second examination requirement includes: whether the material selection of the power grid equipment purchasing plan is correct, whether the material quantity is correct, whether the technical specification book generated aiming at the power grid equipment purchasing plan is consistent with the description of the materials, whether the technical parameters in the technical specification book are correctly filled, whether the drawing generated aiming at the power grid equipment purchasing plan is consistent with purchasing application and the technical specification book, and whether the technical specification book has information added in disorder; whether the compiling template of the technical specification is a small interval or not; whether the power grid equipment purchase plan has a continuous extension project or not.

In one possible implementation manner, the non-curing ID inspection module is specifically configured to automatically adjust a purchase mode corresponding to the grid equipment purchase plan according to the inspection result of the at least one second inspection requirement based on the technical specification ID, and output a non-curing ID inspection result.

In a third aspect, embodiments of the present application provide a readable medium having instructions stored thereon, which when executed on an electronic device, cause the electronic device to perform a method of technical specification inspection of a power grid device as in the first aspect and any one of its possible implementations.

In a fourth aspect, an embodiment of the present application provides an electronic device, including: a memory for storing instructions for execution by one or more processors of the electronic device, and the processor, which is one of the processors of the electronic device, is for performing a technical specification review method of a power grid device as in the first aspect and any one of its possible implementations.

Drawings

FIG. 1 illustrates a schematic diagram of a grid plant procurement plan-related auditing tool architecture according to some embodiments of the application;

FIG. 2 illustrates a flow diagram of a device technical specification review method, according to some embodiments of the present application;

FIG. 3 illustrates a schematic diagram of an inspection interface of an inspection tool, according to some embodiments of the present application;

FIG. 4 illustrates a flow diagram of a non-curing ID audit, according to some embodiments of the present application;

FIG. 5 illustrates a flow diagram of a smart subcontracting according to some embodiments of the present application;

fig. 6 illustrates a schematic diagram of a device specification review system, according to some embodiments of the application.

Detailed Description

Illustrative embodiments of the present application include, but are not limited to, a method and system for technical specification review of power grid equipment.

Exemplary embodiments of the present invention will now be described more fully with reference to the accompanying drawings. However, the exemplary embodiments can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these exemplary embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the invention to those skilled in the art. The same reference numerals in the drawings denote the same or similar elements, components or portions, and thus a repetitive description thereof will be omitted.

The features, structures, characteristics or other details described in a particular embodiment do not exclude that may be combined in one or more other embodiments in a suitable manner, without departing from the technical idea of the invention.

In the description of specific embodiments, features, structures, characteristics, or other details described in the present invention are provided to enable one skilled in the art to fully understand the embodiments. However, it is not excluded that one skilled in the art may practice the present invention without one or more of the specific features, structures, characteristics, or other details.

The technical specification inspection method and system for the power grid equipment can be applied to inspection stages of purchasing of power grid equipment such as power transformation equipment. Of course, the power grid equipment provided by the application includes, but is not limited to, power transformation equipment, and can also be other power grid equipment with purchasing requirements or other power grid supplies.

Referring to fig. 1, a schematic diagram of a grid equipment purchasing plan-related inspection tool architecture is provided in an embodiment of the present application, where the tool not only provides an inspection expert version but also provides a purchasing responsibility version. The inspection expert board can support the inspection work such as equipment technical specification inspection and the like of the power grid equipment plan by the support material department, and at least comprises purchasing mode inspection, curing ID inspection, correction table inspection and non-curing ID inspection. In addition, the purchase responsibility edition is used for supporting the project unit end and the material department end to carry out examination information summarization, intelligent subcontracting and pre-subcontracting inspection on the power grid equipment purchase plan on line.

In this way, the technical specification inspection method of the power grid equipment provided by the application can automatically inspect the equipment technical specification in the power grid equipment purchase plan, such as curing ID inspection, correction table inspection and non-curing ID inspection, in an inspection stage through an intelligent inspection tool. Therefore, the effects of file examination intellectualization, flow control standardization and examination result closed cyclization can be realized, so that the work efficiency of examination specialists is improved, and the examination workflow is standardized. In addition, the method can automatically complete examination information summarization, intelligent sub-packaging and pre-packaging inspection, thereby conveniently controlling expert examination conditions, improving the operation automation level of the examination process and improving the working quality of purchasing examination of power grid equipment.

Referring to fig. 2, a flow chart of an inspection method for equipment technical specifications is provided in an embodiment of the present application.

S201: the auditing tool imports a grid device procurement plan that includes at least one of a headquarter procurement application number, a project organization, and an engineering project name.

It can be appreciated that the above-described grid plant procurement plan may include reported materials.

In some embodiments, the inspection tool in the present application may obtain data such as the material main data and the curing ID correspondence table in advance, but is not limited thereto.

As an example, the audit tool may pre-synchronize material master data, annual procurement catalog data of an Enterprise Resource Planning (ERP) system, import a material procurement category and material classification correspondence table, and a technical specification cure ID table, and form a procurement catalog of material code references based on the annual procurement catalog data and the material procurement category and material classification correspondence table.

The material main data comprise material codes and material data, and the material purchase type and material classification corresponding relation table is a relation table constructed in a purchase mode, a purchase type and a material type.

S202: the auditing tool selects project units corresponding to the power grid equipment purchasing plan.

It is understood that the project organization may be a city-level electric company in the national network.

Referring to fig. 3, a schematic view of an inspection interface of an inspection tool according to an embodiment of the present application is shown. The left side of the audit interface shown in fig. 3 is a grid equipment procurement plan list, i.e., a materials list. The power grid equipment purchase plan list comprises a serial number, a headquarter purchase application number, a project unit, a technical specification ID, a round (i.e. a checking round), and a state (i.e. a checking state such as incomplete or completed). Specifically, in fig. 3, the project units of the purchasing plans of the power grid equipment with the numbers 1 to 3 are the power company of the Shanghai city in the national network, and the project unit of the purchasing plan with the number 4 is the power company of the Tianjin city in the national network. Furthermore, the user can select the project unit corresponding to the serial number 1 shown in fig. 3 in the inspection tool, and after the project unit is selected, the inspection tool can be triggered to automatically conduct solidification ID inspection on the power grid equipment purchase plan of the currently selected project unit. For example, referring to the audit interface shown in FIG. 3, a user may operate the "query" control 34 shown in the audit interface to trigger the audit tool to conduct a curing ID audit of the grid equipment procurement plan in which the project unit corresponding to the selected sequence number 1 is located. In addition, the rounds of inspection of the grid equipment procurement plans of sequence numbers 1 to 4 in fig. 3 are all the first round and the status of inspection is all incomplete.

In some embodiments, the auditing tool provided by the present application provides auditing results that also support the user to manually enter headquarter purchase application number, project organization, technical specification ID, etc. information to support the user to query the curing ID audit for a particular grid device purchase plan.

For example, the left side of the audit interface shown in FIG. 3 includes a "headquarter purchase application number" input box 31, an "item unit" input box 32, and a "technical specification ID" input box 33 that support user entry of corresponding information. Further, after the user manually inputs the headquarter purchase application number, project organization, or technical specification ID, the user's clicking on the "query" control 34 shown in fig. 3 may trigger the inspection tool to conduct a curing ID inspection of the grid device purchase plan to which such information corresponds. For example, the grid equipment purchase plan corresponding to the technical specification ID "9906-500114353-00001" and the headquarter purchase application number "300200332400010" is subjected to the curing ID review.

In some embodiments, the audit results interface shown in fig. 3 may present a bidding batch where the current grid equipment procurement plan is located, e.g., the bidding batch is "2020 first batch transformer".

S203: the inspection tool inspects the purchasing mode of the power grid equipment purchasing plan and determines the technical specification ID of the power grid equipment purchasing plan.

In some embodiments, the purchase means may include purchasing for agreement inventory or centralized bidding, authorizing purchasing, single source. Wherein, the centralized bid-posting procurement can also be called public bid-posting.

In some embodiments, for different purchasing modes, different methods may be used to generate the technical specification ID of the power grid equipment purchasing plan. For example, the inspection tool in the present application may invoke the technical specification cure ID table to generate the technical specification ID when determining that the purchase mode is agreement inventory or centralized bidding purchase (i.e., public bidding). When the purchasing mode is determined to be authorized purchasing, a technical specification book can be created, and a technical specification ID is generated; when the purchasing mode is a single source, technical specification books of the ECP system can be synchronized and the technical specification ID in the technical specification books can be set as the technical specification ID.

For example, the purchasing mode of the power grid equipment purchasing plan corresponding to the headquarter purchasing application number "300200332400010" is "public bidding".

S204: the inspection tool performs a curing ID inspection on the grid purchase plan based on the inspection result of the purchase mode, and outputs an inspection result including at least one inspection requirement. Among them, the inspection requirement corresponding to the cure ID inspection may also be referred to as a first inspection requirement.

In some embodiments, the audit requirements for different technical specification IDs are different.

For example, the at least one audit requirement may include: whether the corresponding relation between the materials and the technical specifications is correct or not, and whether the solidification ID is frozen or not. In addition, the censored results of each censoring requirement may be acceptable or unacceptable, and the unacceptable censored results also support providing information such as returns, original content, and modified content.

Specifically, the method and the device can automatically check whether the corresponding relation between the purchasing plan of the power grid equipment (namely reporting the material) and the technical specification ID is correct according to the material main data and the solidified ID corresponding relation table.

In some embodiments, the right side of the inspection interface shown in fig. 3 is information related to the cured ID inspection result, including information about the grid equipment purchase plan, such as the technical specification ID of the purchase plan selected by the user, project unit, project name, headquarter purchase application number, purchase mode, cargo description, and the like. For example, the technical specification ID of the purchase plan on the right side of the inspection interface shown in fig. 3 is 9906-500114353-00001, the project unit is "national net Shanghai electric power company", the project name is "Shanghai Yang Hang kv transformer substation main transformer capacity-increasing project", and the headquarter purchase application number is "300200332400010", and the purchase mode is "public bidding", and the goods are described as "the dissolved gas on-line monitoring device in intelligent transformer substation transformer oil-monitoring gas type …".

In addition, in some embodiments, the curing ID inspection result shown in fig. 3 further includes an inspection requirement "whether the correspondence between the materials and the technical specifications is correct" with a number 1 and an inspection requirement "whether the curing ID is frozen" with a number 2. Then, for the grid equipment purchasing plan of headquarter purchasing application number "300200332400010", the expert opinion of "whether the correspondence between materials and technical specifications is correct" is "qualified", and the expert opinion of "whether the solidification ID is frozen" is "unqualified". In addition, although not shown in the figures, in some embodiments, if the expert opinion of a particular review requirement is "disqualified," the review tool may also present the user with the returned opinion, original content, modified content for that review requirement.

S205: the inspection tool generates a reject list or return modification list for the grid equipment procurement plan for which the curing ID is reject, and performs a fix-up table inspection based on the reject list or return modification list.

It will be appreciated that the inspection tool generates a reject list or return modifier for reject inspection requirements in the cure ID inspection results. Further, the user (e.g., a user on the item unit side) generates a fix-up table based on the reject list or the return modification list, and the fix-up table is imported into the review tool. The correction table is obtained by modifying unqualified contents in the unqualified list or the returned modification list.

In some embodiments, the inspection tool provided herein may display the inspection results of the curing ID inspection in the tool. The technical specification for errors supports expert online review while the tool supports automatic generation of reject lists and return modifiers.

With continued reference to Table 3, after the grid plant procurement plan is automatically reviewed by the review tool, the user may trigger the review tool to generate a reject list or return modification list by clicking on the "export reject list" control 36 or the "export return modification list" control 37. And, upon a user clicking on the "review" control 38 shown on the right side of fig. 3, a review tool may be triggered to review the fix-up table.

It will be appreciated that the inspection results of the correction table inspection may also include at least one inspection requirement described above, such as an inspection result of whether the correspondence between the materials and the technical specifications is correct, and whether the solidification ID is frozen. Then the review tool may conduct the fix-up table review one or more times until at least one of the review requirements in the review results is acceptable.

Further, referring to the review interface shown in fig. 3, the "all-eligible" control 35, after user operation, the review tool may present to the user information, such as a technical specification ID, headquarter purchase application number, etc., requesting a review of all-eligible grid equipment purchase plans.

S206: the inspection tool performs non-curing ID inspection on the power grid equipment purchase plan to obtain a non-curing ID inspection result, and re-performs non-curing ID inspection based on the non-curing ID inspection result.

Wherein the auditing tool may generate a reject list, return a modification order, or report material for a grid device procurement plan that failed the non-curing ID audit, and re-conduct the non-curing ID audit based on such information.

For example, the non-curing ID inspection may be generated based on at least one inspection requirement (denoted as a second inspection requirement), and a description of these inspection requirements will be described in detail below, which is not described here.

In some embodiments, the non-curing ID reviews in the present application may embed review requirements into the tool according to the content and criteria of the review for the different product categories, with the review being determined by the expert ID by ID. Also, non-curing ID reviews support export of the manifest of failures and the return modifier. It will be appreciated that the non-curing ID reviews the corresponding reject list and return modifier, reports material, etc. For example, reporting materials may include project background and investigation situation analysis, project implementation plans, project expected effects, and the like.

In addition, the examination request in the present application may be referred to as an examination request, and is not particularly limited.

Therefore, the inspection tool provided by the application realizes automatic inspection judgment on the cured ID, the non-cured ID and the like, improves the intelligent inspection level and avoids consuming more manpower. In addition, the flow control flow of the method can provide various examination requirements so as to ensure that an expert completes examination work item by item according to the examination requirements and ensure that examination flow specifications and examination results are traceable in a closed loop. In addition, the inspection tool in the application can automatically export the unqualified list, the return modification list and the like of the inspection result after completing the automatic inspection, thereby facilitating the review of experts and the further modification of project units and improving the operation automation level of the inspection experts and the purchasing responsibility inspection stage.

In some embodiments, the non-curing ID review provided by embodiments of the present application may include three phases: material plan review, technical general review, and technical specific review. Next, a flow of non-curing ID inspection will be described taking an example in which a grid material purchase plan involves a combined electrical appliance.

Referring to fig. 4, a flow chart of non-curing ID inspection according to an embodiment of the present application is shown. The flow includes steps S401-S413, i.e. S206 shown in fig. 2 above may include S401-S413. Also, S401 to S403 as in 4 are applied to the material plan review, S404 to S408 are applied to the technical general review, and S409 to S413 are applied to the technical specific review.

Material planning stage:

s401: and selecting a technical specification ID of the power grid equipment purchasing plan to enter an auditing flow.

S402: and judging whether the material selection is correct, if so, entering S403, and if not, ending.

It will be appreciated that the material may be a material (i.e. a power grid device) involved in a power grid device purchase plan, for example, to determine whether the current material is a composite device.

S403: and judging whether the material quantity is correct, if so, entering S404, and if not, ending.

Technical general examination:

s404: and judging whether the technical specification is consistent with the material description, if so, entering S405, and if not, ending.

The technical specification book is generated for the current power grid equipment purchasing plan. For example, the present application may synchronize technical specifications in an ECP system.

S405: and judging whether the technical parameters are correctly filled, if so, entering S406, and if not, ending.

For example, the technical parameters may be rated capacity, rated voltage, rated current, no-load loss, etc. of the combined electrical apparatus.

S406: and judging whether the drawing is consistent with the purchasing application and the technical specification, if so, entering S407, and if not, ending.

The drawing may be a drawing corresponding to a current power grid equipment purchasing plan. And the purchasing application and the technical specification can be automatically generated based on the purchasing mode of the current power grid equipment purchasing plan.

In some embodiments, the present application may synchronize purchase applications in an ECP system.

S407: and judging whether the technical specification is added in disorder, if so, entering S408, and if not, ending.

S408: and judging whether the programming template is correct, if so, entering S409, and if not, ending.

Wherein, the above-mentioned compiling template refers to the compiling template of the technical specification.

Technology-specific inspection:

s409: judging whether the programming template is a small interval and filling in the interval size, if so, proceeding to S410, otherwise, ending.

S410: whether there is a continuous extension project is judged, if yes, S411 is entered, if not, the process is ended.

S411: and automatically adjusting the purchasing mode, and exporting a disqualification list, reporting materials or returning a modification list.

For example, the purchasing mode of the public bidding is automatically adjusted to other purchasing modes.

S412: and S402, the judgment is carried out again after the modified list/technical specification is imported based on the unqualified list.

S413: the comment is imported based on the reporting material, and the judgment is made by re-entering S402.

The inspection tool provided by the application can re-execute the non-curing ID inspection process aiming at the modified list/technical specification and the comment of the commentary until the inspection result is qualified or the comment of the commentary is confirmed (or agreed) and the non-curing ID inspection is finished.

It may be understood that, the above-mentioned S402-S409 are all examination requirements set by the current grid equipment purchasing plan, and other examination requirements may also be set by the grid equipment purchasing plan of other types of materials, which is not specifically limited in this embodiment of the present application. Further, the audit requirement for non-curing ID audit in this application may also be referred to as a second audit requirement.

Therefore, the method and the device can embed the examination requirements into the examination tool according to the examination contents and standards of different product contents, so that each purchasing plan can be examined one by the expert according to the technical specification ID in the examination process, and the examination flow specification and examination result are guaranteed to be traceable in a closed loop.

It should be noted that, the inspection process of the inspection tool shown in fig. 2 and fig. 4 provided in the embodiment of the present application is mainly applied to an inspection expert version of the inspection tool, that is, to an inspection work normalized and efficient by an expert using the inspection tool.

In some embodiments, the auditing tool provided by the present application may also be applied to purchasing specialized versions, such as for a user at the project organization end to learn expert auditing conditions, thereby increasing the level of job automation based on the auditing conditions.

As an example, the inspection tool provided herein may aggregate inspection information of individual grid equipment procurement plans, such as inspection results of cured IDs and inspection results of non-cured IDs, and the like. And the inspection result can be intelligently sub-packaged based on the purchase plans of all the power grid equipment to obtain a pre-packaged result, and the pre-packaged result is subjected to pre-packaged inspection. Next, the present application may describe a flow of intelligent sub-packaging of an inspection tool.

For example, referring to fig. 5, an intelligent subcontracting process provided in an embodiment of the present application includes the following steps:

s501: the inspection tool acquires information of a first sub-package item, wherein the information of the first sub-package item comprises a bid year, a bid batch and a bid name.

For example, the year of bidding is 2022, the lot of bidding is the first lot, and the bid name is 11. Wherein the auditing tool may provide an intelligent subcontracting interface and an input box to support user entry of information for the subcontracting item.

S502: the inspection tool imports the first material summary table data of the first sub-package item and sub-packages the first sub-package item.

For example, a user may manually trigger the intelligent tool to import first material summary table data for a first sub-divided item through the intelligent sub-divided interface of the inspection tool, and manually operate to trigger the inspection tool to sub-divide the first sub-divided item.

S503: and the examination tool sets sub-packaging dimensions of the first sub-packaging items according to the general rule and the special rule, and different dimensions correspond to different sub-packaging categories.

In some implementations, the subcontracting dimension setting includes two aspects, one being a general rule and one being a special rule. The general rule includes two dimensions, one of which is recognition through the description of the good and the other of which is recognition through the respective data in the first material summary table data. Furthermore, the special rules described above may be user-defined.

For example, the sub-packaging category in the sub-packaging dimension setting process may include transformers, reactors, transformers, lightning arresters, and the like.

S504, importing materials to be separated corresponding to the power grid equipment purchasing plan by the inspection tool, wherein the materials to be separated are indexed by sub-packaging categories.

S505: and the examination tool sets the sub-packaging rule according to the index of the material to be separated.

Wherein, above-mentioned subcontracting rule sets up including material dimension setting and rule setting, and the material dimension setting includes the material dimension to and the setting of not split granularity.

For example, the review tool defaults to three material dimensions, including project unit, requirement unit name, project name, where project name defaults to "no resolution allowed" and the other two are "resolution allowed".

The rule setting includes performing a lower scale limit, an upper scale limit, a number of packets, selecting mutually exclusive sub-packets, batch setting, merging cancellation, one-key sub-packets, and auxiliary sub-packet operations for each sub-packet category. The auxiliary sub-packaging operation may include generating three parts of data for each sub-packaging category, respectively: to-be-packetized material, and packetized material.

S506, the inspection tool adjusts the packetizing detail and derives the packetizing data. It will be appreciated that the derived packetized data may be pre-packetized results.

Wherein the subcontracting detail adjustment can support the user to manually select certain data to be placed in a subcontracting item. In addition, some data are listed as empty "sub-packet categories" or sub-packet categories of sub-packet scale are not set, and the examination tools do not sub-packet the data, and the materials are classified into non-sub-materials.

Therefore, the inspection tool provided by the application of the purchasing responsibility edition can enable the user at the project unit end to inspect comments of the control expert, improve the working quality and facilitate the sequential execution of the projects.

It should be noted that, in the technical specification inspection method of the power grid device provided in the embodiment of the present application, the execution subject may be an electronic device. Specifically, the electronic device has the above-described inspection tool installed therein, and the method is executed based on the inspection tool.

It is understood that electronic devices suitable for use in the present application may include, but are not limited to: a cell phone, tablet, video camera, desktop, laptop, handheld, notebook, desktop, ultra-mobile personal computer, UMPC, netbook, cell phone, personal digital assistant (personal digital assistant, PDA), etc.

In some embodiments, the auditing tools provided by embodiments of the present application may also be referred to as a grid plant technical specification auditing system. Referring to fig. 6, a schematic structural diagram of a system for inspecting technical specifications of power grid equipment is shown. The system as shown in fig. 6 includes: the data importing module 61 is configured to import a grid equipment purchase plan, where the grid equipment purchase plan includes at least one of a headquarter purchase request number, a project unit, and an engineering project name; the purchasing mode examining module 62 is configured to examine the purchasing mode of the purchasing plan of the power grid device and determine a technical specification ID of the purchasing plan of the power grid device; the curing ID inspection module 63 is configured to perform curing ID inspection on the power grid equipment purchasing plan according to the technical specification ID, and output a curing ID inspection result, where the curing ID inspection result is generated based on at least one first inspection requirement; the fix-up table review module 64 imports a fix-up table for the grid equipment procurement plan for which the cure ID review failed, and performs fix-up table review; the non-curing ID inspection module 65 is configured to perform non-curing ID inspection on the grid equipment purchase plan based on the technical specification ID, and output a non-curing ID inspection result, where the curing ID inspection result is generated based on at least one second inspection requirement.

In one possible implementation, the at least one first audit requirement includes: whether the corresponding relation between the materials and the technical specifications is correct or not, and whether the solidification ID is frozen or not.

In one possible implementation manner, the curing ID inspection result further includes at least one of the following: technical specification ID of power grid equipment purchasing plan, project unit, project name, headquarter purchasing application number, purchasing mode and cargo description.

In a possible implementation manner, the above-mentioned curing ID checking module 63 is further configured to generate, according to the curing ID checking result, a first reject list and a first return modification list corresponding to the curing ID checking.

In one possible implementation, the fix-up table review module 64 is specifically configured to import a fix-up table for a grid equipment procurement plan that is not qualified for curing ID review based on the corresponding failure list and return modifier, and perform a fix-up table review.

In one possible implementation manner, the curing ID inspection module 63 is specifically configured to perform curing ID inspection on the power grid equipment purchasing plan according to the technical specification ID based on the pre-input material main data and the curing ID correspondence table, and output a curing ID inspection result; wherein, the material main data includes material code and material data.

In one possible implementation, the material master data and curing ID correspondence table is obtained synchronously from the enterprise resource planning ERP system.

In one possible implementation, the non-curing ID inspection results include at least one of: a second reject list, reporting material, a second return modifier.

In one possible implementation, the system as shown in fig. 6 further includes: a review modifier module 66 for including a second reject list corresponding to the non-cured ID review result, importing a modified bill of materials or a modified technical specification, wherein the modified bill of materials and the modified technical specification are generated based on the second reject list; the non-solidified ID corresponding to the result includes reporting material, importing the comment of the commentary, the comment of the commentary is generated based on the reporting material; and the non-curing ID examination module is also used for carrying out non-curing ID examination on the power grid equipment purchasing plan again according to the modified bill of materials, the modified technical specification and the comments of the commentary.

In one possible implementation, the at least one second examination requirement includes: whether the material selection of the power grid equipment purchasing plan is correct, whether the material quantity is correct, whether the technical specification book generated aiming at the power grid equipment purchasing plan is consistent with the description of the materials, whether the technical parameters in the technical specification book are correctly filled, whether the drawing generated aiming at the power grid equipment purchasing plan is consistent with purchasing application and the technical specification book, and whether the technical specification book has information added in disorder; whether the compiling template of the technical specification is a small interval or not; whether the power grid equipment purchase plan has a continuous extension project or not.

In one possible implementation, the non-cured ID censoring module 65 is specifically configured to automatically adjust, based on the technical specification ID, a procurement manner corresponding to the grid device procurement plan according to the censoring result of the at least one second censoring requirement, and output a non-cured ID censoring result.

In one possible implementation manner, the embodiment of the application provides a readable medium, and instructions are stored on the readable medium, and when the instructions are executed on an electronic device, the instructions cause the electronic device to execute the technical specification inspection method of the power grid device provided by the embodiment of the application.

In one possible implementation manner, an embodiment of the present application provides an electronic device, including: the memory is used for storing instructions executed by one or more processors of the electronic device, and the processor is one of the processors of the electronic device and is used for executing the technical specification checking method of the power grid device provided by the embodiment of the application.

Embodiments of the mechanisms disclosed herein may be implemented in hardware, software, firmware, or a combination of these implementations. Embodiments of the present application may be implemented as a computer program or program code that is executed on a programmable system including at least one processor, a storage system (including volatile and non-volatile memory and/or storage elements), at least one input device, and at least one output device.

Program code may be applied to input instructions to perform the functions described herein and generate output information. The output information may be applied to one or more output devices in a known manner. For purposes of this application, a processing system includes any system having a processor such as, for example, a Digital Signal Processor (DSP), microcontroller, application Specific Integrated Circuit (ASIC), or microprocessor.

The program code may be implemented in a high level procedural or object oriented programming language to communicate with a processing system. Program code may also be implemented in assembly or machine language, if desired. Indeed, the mechanisms described in the present application are not limited in scope to any particular programming language. In either case, the language may be a compiled or interpreted language.

In some cases, the disclosed embodiments may be implemented in hardware, firmware, software, or any combination thereof. The disclosed embodiments may also be implemented as instructions carried by or stored on one or more transitory or non-transitory machine-readable (e.g., computer-readable) storage media, which may be read and executed by one or more processors. For example, the instructions may be distributed over a network or through other computer readable media. Thus, a machine-readable medium may include any mechanism for storing or transmitting information in a form readable by a machine (e.g., a computer), including but not limited to floppy diskettes, optical disks, read-only memories (CD-ROMs), magneto-optical disks, read-only memories (ROMs), random Access Memories (RAMs), erasable programmable read-only memories (EPROMs), electrically erasable programmable read-only memories (EEPROMs), magnetic or optical cards, flash memory, or tangible machine-readable memory for transmitting information (e.g., carrier waves, infrared signal digital signals, etc.) in an electrical, optical, acoustical or other form of propagated signal using the internet. Thus, a machine-readable medium includes any type of machine-readable medium suitable for storing or transmitting electronic instructions or information in a form readable by a machine (e.g., a computer).

In the drawings, some structural or methodological features may be shown in a particular arrangement and/or order. However, it should be understood that such a particular arrangement and/or ordering may not be required. Rather, in some embodiments, these features may be arranged in a different manner and/or order than shown in the illustrative figures. Additionally, the inclusion of structural or methodological features in a particular figure is not meant to imply that such features are required in all embodiments, and in some embodiments, may not be included or may be combined with other features.

It should be noted that, in the embodiments of the present application, each unit/module is a logic unit/module, and in physical aspect, one logic unit/module may be one physical unit/module, or may be a part of one physical unit/module, or may be implemented by a combination of multiple physical units/modules, where the physical implementation manner of the logic unit/module itself is not the most important, and the combination of functions implemented by the logic unit/module is the key to solve the technical problem posed by the present application. Furthermore, to highlight the innovative part of the present application, the above-described device embodiments of the present application do not introduce units/modules that are less closely related to solving the technical problems presented by the present application, which does not indicate that the above-described device embodiments do not have other units/modules.

It should be noted that in the examples and descriptions of this patent, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

While the present application has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present application.

Claims (14)

1. A method for technical specification review of power grid equipment, the method comprising:

importing a power grid equipment purchase plan, wherein the power grid equipment purchase plan comprises at least one of a headquarter purchase application number, a project unit and an engineering project name;

performing purchase mode examination on the power grid equipment purchase plan, and determining a technical specification ID of the power grid equipment purchase plan;

performing curing ID examination on the power grid equipment purchasing plan according to the technical specification ID, and outputting a curing ID examination result, wherein the curing ID examination result is generated based on at least one first examination requirement;

importing a correction table aiming at the grid equipment purchasing plan with unqualified curing ID examination, and performing correction table examination;

and based on the technical specification ID, performing non-curing ID examination on the power grid equipment purchasing plan, and outputting a non-curing ID examination result, wherein the curing ID examination result is generated based on at least one second examination requirement.

2. The method of claim 1, wherein the at least one first review requirement comprises: whether the corresponding relation between the materials and the technical specifications is correct or not, and whether the solidification ID is frozen or not.

3. The method of claim 1, wherein the curing ID inspection result further comprises at least one of: and the technical specification ID of the power grid equipment purchasing plan, project units, project names, headquarter purchasing application numbers, purchasing modes and cargo descriptions.

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

and generating a first unqualified list and a first returned modification list corresponding to the curing ID examination according to the curing ID examination result.

5. The method of claim 4, wherein the grid plant procurement plan for cure ID review failure imports a fix table and performs fix table review, comprising:

and importing a correction table aiming at the grid equipment purchasing plan with unqualified curing ID examination based on the unqualified list and the returned modification list corresponding to the curing ID examination, and performing correction table examination.

6. The method of claim 1, wherein said performing a curing ID review of said grid plant procurement plan according to said technical specification ID and outputting a curing ID review result comprises:

based on the pre-imported material main data and a curing ID corresponding relation table, performing curing ID examination on the power grid equipment purchasing plan according to the technical specification ID, and outputting a curing ID examination result;

wherein, the material main data comprises material codes and material data.

7. The method of claim 6, wherein the material master data and the curing ID correspondence table are synchronized from an enterprise resource planning ERP system.

8. The method of claim 1, wherein the non-curing ID inspection results comprise at least one of: a second reject list, reporting material, a second return modifier.

9. The method of claim 8, wherein the method further comprises:

importing a modified bill of materials or a modified technical specification corresponding to the non-curing ID inspection result including the second reject list, wherein the modified bill of materials and the modified technical specification are generated based on the second reject list;

importing, corresponding to the uncured ID inspection result including the reporting material, a review opinion generated based on the reporting material;

and re-performing non-curing ID examination on the power grid equipment purchasing plan according to the modified bill of materials, the modified technical specification and the review comments.

10. The method according to any one of claims 1 to 9, wherein the at least one second review requirement comprises:

whether the material selection of the power grid equipment purchase plan is correct,

whether the amount of material is correct or not,

Whether the technical specifications generated for the grid equipment procurement plan are consistent with the description of the materials,

whether the technical parameters in the technical specification are correctly filled in,

whether the drawing generated aiming at the power grid equipment purchasing plan is consistent with the purchasing application and the technical specification book,

whether the technical specification has information added in disorder or not;

whether the compiling template of the technical specification is a small interval or not;

and whether a continuous extension project exists in the power grid equipment purchasing plan or not.

11. The method of claim 10, wherein performing a non-curing ID review of the grid equipment procurement plan based on the technical specification ID and outputting a non-curing ID review result comprises:

and based on the technical specification ID, automatically adjusting a purchasing mode corresponding to the power grid equipment purchasing plan according to the inspection result of the at least one second inspection requirement, and outputting the non-solidified ID inspection result.

12. A technical specification auditing system for power grid equipment, the system comprising:

the data importing module is used for importing a power grid equipment purchasing plan, wherein the power grid equipment purchasing plan comprises at least one of a headquarter purchasing application number, a project unit and an engineering project name;

The purchasing mode examination module is used for performing purchasing mode examination on the power grid equipment purchasing plan and determining the technical specification ID of the power grid equipment purchasing plan;

the curing ID examination module is used for carrying out curing ID examination on the power grid equipment purchasing plan according to the technical specification ID and outputting a curing ID examination result, and the curing ID examination result is generated based on at least one first examination requirement;

the correction table examination module is used for importing a correction table aiming at the grid equipment purchasing plan with unqualified curing ID examination and carrying out correction table examination;

and the non-curing ID examination module is used for carrying out non-curing ID examination on the power grid equipment purchasing plan based on the technical specification ID and outputting a non-curing ID examination result, wherein the curing ID examination result is generated based on at least one second examination requirement.

13. A readable medium having stored thereon instructions that, when executed on an electronic device, cause the electronic device to perform the method of technical specification inspection of a power grid device according to any one of claims 1 to 11.

14. An electronic device, comprising: memory for storing instructions for execution by one or more processors of an electronic device, and the processor, being one of the processors of the electronic device, for performing the technical specification auditing method of a power grid device of any of claims 1 to 11.