Method for reconstructing bill of materials of manufactured components and electronic device
By matching component identifiers with dynamic configuration tables during the manufacturing component flow process, the material descriptions are dynamically reconstructed, solving the problem of missing or inconsistent material descriptions, achieving accuracy and compliance of material descriptions, and ensuring the smooth progress of production scheduling.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- INSPUR SUZHOU INTELLIGENT TECH CO LTD
- Filing Date
- 2026-06-16
- Publication Date
- 2026-07-14
AI Technical Summary
In existing technologies, material descriptions are missing or do not match the actual state during the flow of manufactured components, making it difficult for receiving factories to accurately identify basic information, affecting production scheduling and causing compliance risks.
By matching multiple component identifiers with a preset dynamic configuration table during the manufacturing component flow process, requirements are identified and relevant parameters are retrieved, and the material description is dynamically reconstructed to ensure consistency with the actual state and compliance requirements.
It achieves accurate and real-time material descriptions, ensures transparent and compliant information flow across factories, avoids process interruptions and errors, and improves production efficiency.
Smart Images

Figure CN122390695A_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of electronic digital data processing technology, and in particular to a method for reconstructing the material description of manufactured components and an electronic device. Background Technology
[0002] In related technologies, during the transfer of target manufacturing components, the relevant fields of material description are usually statically entered. Therefore, there may be omissions in the entry, resulting in missing material descriptions, or the material descriptions of target manufacturing components may not match the actual status or compliance requirements. This makes it difficult for the receiving factory to accurately identify the basic information of the target manufacturing components when they are transferred across factories, thereby affecting production scheduling and even causing compliance risks, which urgently needs to be improved. Summary of the Invention
[0003] This application provides a material description reconstruction method and electronic device for manufacturing components, which at least solves the technical problem in the related art that the receiving factory has difficulty accurately identifying the basic information of the target manufacturing component when the target manufacturing component is transferred across factories due to factors such as missing material description or the material description not matching the actual state and compliance requirements of the target manufacturing component, thereby affecting production scheduling and even causing compliance risks.
[0004] This application provides a method for reconstructing the material description of a manufacturing component, comprising: in response to the target manufacturing component being in a flow state, determining multiple component identifiers of the target manufacturing component; if some identifiers of the multiple component identifiers match a preset dynamic configuration table, identifying the requirements of the target manufacturing component using the other identifiers besides the partial identifiers; if the requirement is a reconstruction requirement, retrieving description-related parameters corresponding to the target manufacturing component, and reconstructing the material description of the target manufacturing component by combining the description-related parameters and the multiple component identifiers.
[0005] This application also provides a material description reconstruction apparatus for a manufacturing component, comprising: a determination module, configured to determine multiple component identifiers of the target manufacturing component in response to the target manufacturing component being in a flow state; an identification module, configured to identify the requirements of the target manufacturing component using identifiers other than the partial identifiers when some identifiers of the multiple component identifiers match a preset dynamic configuration table; and a reconstruction module, configured to retrieve description-related parameters corresponding to the target manufacturing component when the requirement is a reconstruction requirement, so as to reconstruct the material description of the target manufacturing component by combining the description-related parameters and the multiple component identifiers.
[0006] This application also provides an electronic device, including: a memory for storing a computer program; and a processor for executing the computer program to implement the steps of the material description reconstructing method for any of the above-described manufacturing components.
[0007] This application also provides a computer-readable storage medium storing a computer program, wherein when the computer program is executed by a processor, it implements the steps of the material description reconstruction method for any of the above-described manufacturing components.
[0008] This application also provides a computer program product, including a computer program that, when executed by a processor, implements the steps of the material description reconstructing method for any of the above-described manufacturing components.
[0009] This application embodiment can match some of the component identifiers from its multiple component identifiers with a dynamic configuration table when the target manufacturing component is in a state of being shipped or packaged and about to be transferred to other factories. Based on the matching results, it triggers the parsing of other identifiers to identify whether there is a material description reconstruction requirement. When a reconstruction requirement is confirmed, it retrieves the description parameters related to the current actual state of the component and generates a new material description together with the original component identifier. This allows the material description to be dynamically and accurately corrected to be consistent with the actual state and compliance requirements before the cross-factory transfer. Therefore, it can solve the technical problems in related technologies where the static entry of material descriptions leads to missing descriptions or inconsistencies with the actual state and compliance requirements of the component, which in turn makes it difficult for the receiving factory to identify basic information, affects production scheduling, and causes compliance risks. It achieves the technical effects of improving the accuracy and real-time performance of material descriptions, automating the reconstruction process, ensuring information transparency and compliance during cross-factory transfer, and avoiding process interruptions or errors. Attached Figure Description
[0010] To more clearly illustrate the embodiments of this application, the accompanying drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0011] Figure 1 This is a flowchart of a method for reconstructing the material description of a manufacturing component according to an embodiment of this application; Figure 2 This is a flowchart of a method for reconstructing the material description of a manufacturing component according to an embodiment of this application; Figure 3 This is a schematic diagram illustrating the principle of a material description reconstruction method for a manufacturing component according to an embodiment of this application; Figure 4 This is a schematic diagram of a material description reconstructing apparatus for manufacturing components according to an embodiment of this application. Detailed Implementation
[0012] The technical solutions of the embodiments of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, and not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of this application.
[0013] It should be noted that, in the description of this application, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. The terms "first," "second," etc., in this application are used to distinguish similar objects and are not used to describe a specific order or sequence.
[0014] To enable those skilled in the art to better understand the present application, the present application will be further described in detail below with reference to the accompanying drawings and specific embodiments.
[0015] Understandably, semi-finished products (L6 products), i.e. target manufacturing components, often need to be transferred between factories in different regions for assembly. Therefore, the accuracy of the material description is particularly important when the target manufacturing component is transferred to other factories. An accurate material description allows other factories to directly obtain information such as the basic parameters of the target manufacturing component, thereby improving production efficiency.
[0016] However, there are still many problems with the material description of the target manufacturing components in the relevant technologies.
[0017] When a target manufacturing component is transferred from one factory to another, the original material description is often generated based on the original factory's BOM (Bill of Materials) structure. If the order type or sales region of the target factory changes, the original description cannot automatically adapt to the compliance requirements of the target region (such as certain regions requiring specific voltage markings), resulting in nameplate printing errors.
[0018] Therefore, before the target manufacturing components are transferred out of the factory, it is necessary to ensure the accuracy and compliance of the material description. However, using timed full synchronization or manual triggering not only consumes a lot of server bandwidth, but also easily causes data overwrite conflicts due to concurrent writes, and lacks a precise triggering mechanism for specific abnormal scenarios.
[0019] Furthermore, when issues are detected in the material description, the relevant technologies typically only lock a single data table when retrieving component attributes. If data is entered into the backup module due to differences in operating habits on the production floor, the main program will determine that the data is missing and report an error, lacking a fault-tolerant retrieval mechanism.
[0020] To address the aforementioned technical issues, this application provides a method for reconstructing the material description of a manufacturing component. This method effectively determines the accuracy and compliance of the material description before the target manufacturing component leaves the factory. Furthermore, when issues arise with the material description, it enables automated reconstruction, reducing resource consumption and improving production efficiency.
[0021] like Figure 1 As shown, a method for reconstructing the material description of a manufacturing component includes the following steps: In step S101, in response to the target manufacturing component being in a flow state, multiple component identifiers of the target manufacturing component are determined.
[0022] It is understandable that when a target manufactured component is transferred between factories (from the production / processing factory to the receiving factory), the receiving factory can obtain the basic information of the target manufactured component by identifying the material description. However, since the receiving factories are located in different regions, the requirements for the material description vary. For example, the material description in some regions needs to include a voltage indicator. In order to avoid the material description being missing or inconsistent with the requirements of the receiving factory when the target manufactured component is transferred from the production / processing factory, the material description of the target manufactured component can be checked before it leaves the factory.
[0023] However, using timed full-data synchronous collection for detection or manual detection not only consumes a large amount of server bandwidth, but also easily leads to data overwrite conflicts due to concurrent writes. Therefore, the embodiments of this application can detect the material description when the target manufacturing component is in the circulation state, that is, when it enters the circulation state of being about to leave the factory, such as the shipping or packaging stage, in order to avoid consuming a large amount of server bandwidth and reduce the probability of data overwrite conflicts.
[0024] To detect material descriptions, embodiments of this application can obtain component identifiers of target manufacturing components, such as work order identifiers (used to confirm shipping location information), model identifiers, serial numbers, etc., by reading production work order data issued by ERP (Enterprise Resource Planning) system, synchronously obtaining them from upstream business systems by MES (Manufacturing Execution System), or scanning the physical barcodes of target manufacturing components. These identifiers serve as the criteria for determining whether the material description needs to be reconstructed, and also as the parameter benchmarks for material description reconstruction.
[0025] In step S102, if some identifiers of multiple component identifiers match a preset dynamic configuration table, the requirements for the target manufacturing component are identified using the identifiers other than the partial identifiers.
[0026] The dynamic configuration table can be built based on a database. It can store information such as target area identifiers, applicable model whitelists, and key component coding rules. As a dynamic router for data flow, it is used to intercept and filter work orders to be processed in real time.
[0027] The target area identifier can be a code used to mark different shipping areas, so as to determine whether the target manufacturing component needs to be shipped to an area with special material description requirements; the applicable model whitelist can be a pre-entered list of product models with material description reconstruction requirements, including specific models that need to be adapted to compliant nameplates; the key component coding rules can include corresponding coding rules generated according to the material description requirements of different shipping areas, so that when reconstructing the material description, it can be reconstructed according to the coding rules, so that the reconstructed material description is compliant with the coding.
[0028] This application embodiment can confirm whether the target manufacturing component matches the dynamic configuration table by using the component identifier, that is, confirm whether the target manufacturing component has special compliance requirements.
[0029] Once it is confirmed that the target manufacturing component matches the dynamic configuration table, subsequent reconstruction will proceed.
[0030] Optionally, in one embodiment of this application, when some identifiers of multiple component identifiers match a preset dynamic configuration table, the requirement for a target manufacturing component is identified using other identifiers besides the partial identifiers, including: extracting the model identifier of the target manufacturing component from multiple component identifiers; extracting a model whitelist from the preset dynamic configuration table; and, if the model identifier exists in the model whitelist, identifying the requirement for the target manufacturing component using the component identifier.
[0031] This application embodiment can use model identifiers for matching and determination. By extracting the model whitelist from the dynamic configuration table and confirming whether the model of the target manufacturing component is in the model whitelist, it is determined whether the target manufacturing component needs material description detection. If there is no need for detection, the target manufacturing component can be ignored. If the model is in the model whitelist, it means that the target manufacturing component needs to undergo material description detection, and reconstruction is performed if there are problems with the material description.
[0032] In addition, the embodiments of this application can also use material codes for whitelist verification. If the dynamic configuration table is configured with a material code whitelist, the material code of the target manufacturing component is used to verify whether it is in the whitelist.
[0033] By matching machine models, this embodiment of the application can perform subsequent complex verification, data retrieval, and reconstruction logic only on specified models within the whitelist, avoiding indiscriminate processing of all production work orders and reducing server computing power consumption. Furthermore, the whitelist of machine models can be flexibly added to or removed via a dynamic configuration table to quickly adapt to the launch of new products and the phasing out of older products.
[0034] Optionally, in one embodiment of this application, when some identifiers of multiple component identifiers match a preset dynamic configuration table, the requirement to identify the target manufacturing component using identifiers other than some identifiers further includes: extracting the work order identifier of the target manufacturing component from the multiple component identifiers to obtain the target shipping location code of the target manufacturing component based on the work order identifier; extracting the target region identifier corresponding to the target manufacturing component from the preset dynamic configuration table; and, when a preset matching condition is met between the target shipping location code and the target region identifier, identifying the requirement to identify the target manufacturing component using identifiers other than some identifiers.
[0035] This application embodiment can also perform a matching determination of the consistency of the shipping location. This application embodiment can extract a pre-configured target region identifier from the dynamic configuration table to identify compliance risk areas requiring special material descriptions, and extract the work order identifier from the component identifier, thereby parsing the target shipping location code of the target manufactured component. By performing a hash comparison between the target region identifier and the target shipping location code, it is determined whether the target manufactured component needs to undergo description identifier detection. If the target region identifier and the target shipping location code do not match, the target manufactured component is ignored; if they match, the next conditional determination can proceed.
[0036] This application embodiment only performs material description detection on target manufacturing components destined for designated compliant regions (such as overseas export regions), and directly releases work orders from ordinary regions, avoiding indiscriminate processing of all work orders and reducing system computing power consumption; similarly, the target region identifier can be maintained through a dynamic configuration table to adapt to changes in nameplate compliance rules in different regions.
[0037] Optionally, in one embodiment of this application, identifying the requirement of the target manufacturing component using identifiers other than partial identifiers includes: extracting the material description and serial number of the target manufacturing component from the other identifiers; scanning the serial number to obtain a scanning result; and determining that the requirement of the target manufacturing component is a reconfiguration requirement if the scanning result shows that the serial number is valid and the material description is empty.
[0038] If it is determined that the target manufacturing component has the necessity to detect the material description, the embodiments of this application can confirm whether the material description has a reconstruction requirement.
[0039] In actual implementation, there may be situations where the upstream BOM fails to synchronize with the downstream system during the production of the target manufacturing component, resulting in empty material description fields in the downstream system; or during serial number binding, network outages or human error may cause the material description to be not bound to the serial number, or the material description may fail to be written due to network outages. These situations will all result in empty material descriptions for the target manufacturing component. In such cases, this embodiment can scan the serial number of the target manufacturing component to confirm whether the scanned result matches the actual product. If they match, the serial number can be confirmed as valid, avoiding reconstruction triggered by fictitious work orders, data garbage, or test data errors. Based on this, this embodiment can confirm that the target manufacturing component has a need for material description reconstruction.
[0040] In addition to the scenarios described above, the embodiments of this application can also be applied to the following scenarios: Production / processing plants can use pre-set universal material descriptions for their models and target shipping locations in each stage of production or processing. When a batch of target manufactured components is about to leave the factory, the material descriptions of the target manufactured components that can be matched with the dynamic configuration table are uniformly reconstructed to meet the compliance requirements of the target shipping location. There is no need to preset regional rules in the early stages of production, which is suitable for flexible production and multi-region export scenarios.
[0041] The embodiments of this application can improve the accuracy of exception triggering and reduce database concurrency pressure and error probability through null value-sequence number interlock verification.
[0042] In step S103, if the requirement is a reconfiguration requirement, the description-related parameters corresponding to the target manufacturing component are retrieved, and the material description of the target manufacturing component is reconfigured by combining the description-related parameters and multiple component identifiers.
[0043] When a reconstruction requirement is confirmed, embodiments of this application can retrieve description-related parameters of the target manufacturing component, such as test data and R&D data, and then reconstruct the material description of the target manufacturing component using these description-related parameters.
[0044] For example, if the compliance requirement for the target shipping location of a target manufactured component is that voltage information must be included in the material description, then the material description can be reconstructed to meet the compliance requirements of the target shipping location by determining the voltage used during testing or the voltage designed during development using test data or R&D data.
[0045] Optionally, in one embodiment of this application, retrieving description-related parameters corresponding to the target manufacturing component, and reconstructing the material description of the target manufacturing component by combining the description-related parameters and multiple component identifiers, includes: extracting the material code of the target manufacturing component from the multiple component identifiers; retrieving target test data of the target manufacturing component from the test data of the current production line using the material code as an index; and reconstructing the material description of the target manufacturing component using the target test data and multiple component identifiers.
[0046] In some embodiments, to ensure real-time performance, the test tooling data (i.e., test data) of the MES system can be accessed first, and the corresponding retrieval can be performed using the material code to obtain the instantaneous parameters (such as the actual measured voltage and current) written at the current production line test station of the physical entity of the target manufacturing component, which can reflect the real state of the physical object. The target test data is then obtained, and the material description is reconstructed through the target test data.
[0047] The target test data obtained by accessing the test fixture data of the MES system can reflect the real working parameters of the target manufacturing components, and has high real-time performance, which facilitates the rapid reconstruction of high-precision material descriptions.
[0048] Optionally, in one embodiment of this application, after retrieving the target test data of the target manufacturing component from the test data of the current production line, the method further includes: if the target test data is not found in the test data within a first preset time period, retrieving the target baseline parameters of the target manufacturing component from the product file basic data using the material code as an index; and reconstructing the material description of the target manufacturing component using the target baseline parameters and multiple component identifiers.
[0049] It is understandable that during actual execution, situations such as momentary communication interruption of the test equipment or failure to write data may prevent the MES system from effectively obtaining the target test data of the target manufactured component.
[0050] If the target test data is not detected from the test data within a certain time period (which can be set), this application embodiment can perform a secondary search to transform the search data from test data into benchmark parameters for obtaining the design stage, that is, to search from the basic data of the product file to obtain the target benchmark parameters of the target manufacturing component, and then use the target benchmark parameters to reconstruct the material description.
[0051] The baseline parameters retrieved from the basic data of the product archive can provide a backup data solution, preventing material description reconstruction failure due to anomalies in a single data source, and the baseline parameters can ensure the basic compliance of the material description.
[0052] Based on this, the embodiments of this application can also describe materials by combining the two methods.
[0053] For example, embodiments of this application can retrieve target benchmark parameters while retrieving target test data, and compare the target test data and target benchmark parameters to determine whether there are data errors. For instance, if the deviation between the target test data and the target benchmark parameters is less than a certain threshold (which can be set), it can be determined that there are no data errors. In this case, the material description is reconstructed based on the target test data to ensure the applicability of the material description to the working conditions. If the deviation between the target test data and the target benchmark parameters is greater than or equal to a certain threshold, the source of the error can be traced to correct the data and avoid constructing an incorrect material description.
[0054] Optionally, in one embodiment of this application, after retrieving the target reference parameters of the target manufacturing component from the product file basic data using the material code as an index, the method further includes: if the target reference parameters are not found in the product file basic data within a second preset time period, locking the printing permission of the target manufacturing component; recording the serial number of the target manufacturing component, and generating a corresponding supplementary recording warning signal.
[0055] It is understandable that if the target manufacturing component is a newly developed or newly introduced product, there may be situations where the baseline parameters in the design phase were not entered into the product file baseline data, or there may be errors in the back-end operation and maintenance, or omissions in data migration, which may result in the inability to retrieve the baseline parameters of the target manufacturing component in the product file basic database.
[0056] If the relevant baseline parameters of the target manufacturing component are not found in the product file database within a certain period of time (which can be set), this embodiment of the application can directly lock the printing permission of the target manufacturing component to prevent non-compliant nameplates from being printed.
[0057] Optionally, in one embodiment of this application, the material description of the target manufacturing component is reconstructed by combining description-related parameters and multiple component identifiers, including: extracting the work order identifier and model identifier of the target manufacturing component from multiple component identifiers, so as to obtain the target shipping location code and order category of the target manufacturing component based on the work order identifier; generating a corresponding composite index by combining the model identifier and the material code of the target manufacturing component; retrieving the corresponding description template using the composite index with the target shipping location code and order category as constraints; extracting attribute parameters from the description-related parameters, and injecting the attribute parameters into the description template to generate the corresponding material description string.
[0058] As one possible implementation method, this application embodiment can extract the work order identifier from the component identifier, and then determine the target shipping location code and order category (including information such as export, domestic sales or customer type) of the target manufactured component. Further, the model identifier and material code are combined to generate a composite index. Using the target shipping location code and order category as filtering constraints, a description template that matches the target shipping location and order type is retrieved. This application embodiment can fill the corresponding attribute parameters in the obtained description-related parameters into the corresponding template, and finally generate a material description string that matches the target shipping location requirements.
[0059] In addition, embodiments of this application can also combine material codes, target shipping location codes, and order types to generate a composite index to match the corresponding description template. Specifically, the settings can be made according to the actual template retrieval settings, and no specific restrictions are imposed here.
[0060] Through composite indexing, the embodiments of this application can effectively prevent template confusion between different machine models and different materials. Furthermore, by constraining the target shipping location and order type, it can achieve automatic selection of templates that comply with special compliance rules, thereby reducing labor costs.
[0061] Optionally, in one embodiment of this application, after generating the corresponding material description string, the method further includes: verifying the material description string using preset compliance rules to obtain a verification result; if the verification result is successful, using the material description string as a new material description for the target manufacturing component, unlocking the printing permission for the new material description, and using the new material description to print out a nameplate matching the target shipping location of the target manufacturing component.
[0062] This application embodiment can use compliance rules to verify the material description string. When the verification is successful, the nameplate of the target manufacturing component can be printed, overwriting the original material description. When the verification fails, the printing permission of the target manufacturing component is locked.
[0063] The compliance rules are pre-stored in a dynamic configuration table, and different compliance rules can be set according to different target shipping locations, including voltage parameter format, certification mark, text language, symbol requirements, required fields, prohibited content, character length, etc.
[0064] Based on the compliance rules of different destinations, this application embodiment can verify whether the voltage parameter format, certification mark, text language, symbol requirements, required fields, prohibited content, character length and other information of the material description string are consistent with the compliance rules.
[0065] By verifying before printing, this application embodiment can prevent erroneous nameplates from being printed, reducing the recall risk caused by erroneous nameplates.
[0066] Combination Figure 2 and Figure 3 As shown, an embodiment of the material description reconstruction method for manufacturing components in this application will be described in detail.
[0067] Step S201: Set up a dynamic configuration table, such as configuring whitelisted models including L6-Pro and L6-Max, and configuring the target area identifier as A. Additionally, information such as the component type of the manufactured components can be configured into the dynamic configuration table as a judgment criterion, such as configuring the component type as a power supply unit.
[0068] Step S202: Receive work order data. When the target manufactured component moves to the packaging or shipping stage, obtain the component identifier of the target manufactured component, i.e., obtain information such as work order identifier, machine model identifier, and material code. For example, when the manufactured component with work order identifier WO-2026-A-001 moves to the packaging station, the scanner reads the serial number.
[0069] Step S203, Triple Verification. This embodiment of the application can perform triple verification by combining component identifiers and a dynamic configuration table.
[0070] Step S204: Determine if the target shipping location matches.
[0071] For example, check if the target shipping location code is A. If it is A, confirm the match and proceed to step S206; otherwise, proceed to step S205.
[0072] Step S205, normal process. If no material description reconstruction is required, proceed with the normal packaging or shipping process.
[0073] Step S206: Determine if the device model whitelist matches.
[0074] For example, check if the model is L6-Pro or L6-Max. If it is L6-Pro or L6-Max, confirm the match and proceed to step S207; otherwise, proceed to step S205.
[0075] Step S207: Determine if the material description is missing.
[0076] For example, check if the database field T_MARA-MATNR_DESC (material description) is empty. If the serial number is valid and the material description is empty, confirm that the material description is missing and proceed to step S208; otherwise, proceed to step S205.
[0077] In other words, if the target shipping location code is A, the model is L6-Pro, the serial number is valid, and the material description is empty, then the reconstruction conditions are met.
[0078] In addition, other conditions can also be set in the embodiments of this application, such as checking whether the target manufacturing component has been bound to a power material code.
[0079] Step S208, hierarchical retrieval. This embodiment of the application can perform a secondary retrieval if reconstruction is required.
[0080] Step S209, Level 1 Search. First, query the test data to find the target test parameters corresponding to the material code, such as voltage / current parameters.
[0081] Step S210: Determine whether data has been retrieved. If the target test parameter cannot be retrieved, proceed to step S212; otherwise, proceed directly to step S211.
[0082] Step S212, Secondary Search. Query the product file baseline data to obtain target baseline parameters for the design phase, such as voltage / current parameters.
[0083] Step S213: Determine whether data has been retrieved. If the target baseline parameter cannot be retrieved, proceed to step S214; otherwise, proceed directly to step S215.
[0084] Step S214: Lock printing permissions to prevent erroneous nameplates from being leaked.
[0085] Step S215: Obtain target baseline parameters to reconstruct the material description using target baseline parameters if target test parameters are not found.
[0086] The embodiments of this application can also combine the voltage / current parameters from the first-level search and the second-level search to determine whether there are any data anomalies, thereby obtaining more accurate voltage / current parameters.
[0087] Step S216: Generate material description. In this embodiment of the application, the material description can be reconstructed using target test parameters or target benchmark parameters.
[0088] This application embodiment can combine material code (such as Power_A_001) and model identifier (such as L6-Pro) to obtain a composite index, and return the description template under the order type (such as ZA1, A region-specific order type) as a constraint: PWR UNIT (power unit), <input parameters>, <output parameters>, XX CERTIFIED (A region certification).
[0089] In this embodiment of the application, voltage / current parameters can be filled into the above template to generate the final string: PWR UNIT (power supply unit), 110V, 12V / 5A, XX CERTIFIED.
[0090] In step S217, this embodiment of the application can write the string back to the temporary work order table after verifying it with the compliance rules in the dynamic configuration table, mark the verification as passed, and update the work order data.
[0091] Step S218, nameplate printing. In this embodiment, after successful verification, the printer driver is invoked to output a nameplate containing the aforementioned string. If any step fails, an error code is displayed in a pop-up window, and the interface is locked.
[0092] Based on the above process, it can be seen that the data flow in the embodiments of this application can be as follows: Figure 3 As shown, this embodiment of the application can acquire work order data and obtain component identifiers such as work order, model, serial number, target shipping location, and material code through the work order data. Alternatively, it can directly acquire these component identifiers. Using the acquired component identifiers in conjunction with a dynamic configuration table, triple verification can be performed. After successful verification, hierarchical retrieval is conducted. The first-level retrieval can obtain data from the current production line's test data, while the second-level retrieval can obtain data from the product file's basic data. Based on the target test data or target baseline parameters, this embodiment of the application can perform corresponding template matching by combining information such as work order, material code, target shipping location, and model. Through dynamic context mapping, the material description string of the target manufacturing component is obtained. The material description string is then subjected to compliance rule verification. If verification passes, nameplate printing and data synchronization can proceed. If verification fails or the hierarchical retrieval fails to obtain the relevant description parameters, an anomaly lock is implemented to prevent erroneous nameplates from being issued.
[0093] Through the above description of the embodiments, those skilled in the art can clearly understand that the methods according to the above embodiments can be implemented by means of software plus necessary general-purpose hardware platforms. Of course, they can also be implemented by hardware, but in many cases the former is a better implementation method.
[0094] like Figure 4 As shown, embodiments of this application also provide a material description reconfiguration apparatus 10 for manufacturing components, comprising: Specifically, module 100 is used to determine multiple component identifiers of the target manufacturing component in response to the target manufacturing component being in a flow state.
[0095] The identification module 200 is used to identify the requirements of the target manufacturing component by using other identifiers besides the partial identifiers when a partial identifier of multiple component identifiers matches a preset dynamic configuration table.
[0096] The refactoring module 300 is used to retrieve description-related parameters corresponding to the target manufacturing component when the requirement is a refactoring requirement, so as to combine the description-related parameters and multiple component identifiers to refactor the material description of the target manufacturing component.
[0097] Optionally, in one embodiment of this application, the reconstruction module 300 includes: The first extraction unit is used to extract the material code of the target manufacturing component from multiple component identifiers.
[0098] The first retrieval unit is used to retrieve target test data of the target manufacturing component from the test data of the current production line, using the material code as an index.
[0099] The first reconstruction unit is used to reconstruct the material description of the target manufacturing component using target test data and multiple component identifiers.
[0100] Optionally, in one embodiment of this application, the reconstruction module 300 further includes: The second retrieval unit is used to retrieve the target baseline parameters of the target manufacturing component from the product file basic data, using the material code as an index, when the target test data is not found in the test data within the first preset time period.
[0101] The second reconstruction unit is used to reconstruct the material description of the target manufacturing component using target baseline parameters and multiple component identifiers.
[0102] Optionally, in one embodiment of this application, the reconstruction module 300 further includes: The locking unit is used to lock the printing permission of the target manufacturing component if the target reference parameter is not found in the product file basic data within a second preset time period.
[0103] The early warning unit is used to record the serial number of the target manufacturing component and generate a corresponding supplementary early warning signal.
[0104] Optionally, in one embodiment of this application, the identification module 200 includes: The second extraction unit is used to extract the model identifier of the target manufacturing component from multiple component identifiers.
[0105] The third extraction unit is used to extract the model whitelist from the preset dynamic configuration table.
[0106] The first identification unit is used to identify the demand for target manufacturing components by utilizing component identifiers when the model identifier exists in the model whitelist.
[0107] Optionally, in one embodiment of this application, the identification module 200 further includes: The fourth extraction unit is used to extract the work order identifier of the target manufacturing component from multiple component identifiers, so as to obtain the target shipping location code of the target manufacturing component based on the work order identifier.
[0108] The fifth extraction unit is used to extract the target area identifier corresponding to the target manufacturing component from the preset dynamic configuration table.
[0109] The second identification unit is used to identify the demand for target manufacturing components by using other identifiers besides some identifiers, provided that a preset matching condition is met between the target shipping location code and the target area identifier.
[0110] Optionally, in one embodiment of this application, the identification module 200 includes: The sixth extraction unit is used to extract the material description and serial number of the target manufacturing component from other identifiers.
[0111] The scanning unit is used to scan the serial number and obtain the scanning result.
[0112] The determination unit is used to determine the requirement of the target manufacturing component as a reconfiguration requirement when the scan result shows a valid serial number and the material description is empty.
[0113] Optionally, in one embodiment of this application, the reconstruction module 300 includes: The acquisition unit is used to extract the work order identifier and model identifier of the target manufacturing component from multiple component identifiers, so as to obtain the target shipping location code and order category of the target manufacturing component based on the work order identifier.
[0114] The generation unit is used to combine the model identifier and the material code of the target manufacturing component to generate the corresponding composite index.
[0115] The third retrieval unit is used to retrieve the corresponding description template using a composite index, constrained by the target shipping location code and order category.
[0116] The injection unit is used to extract attribute parameters from the description-related parameters and inject the attribute parameters into the description template to generate the corresponding material description string.
[0117] Optionally, in one embodiment of this application, the material description reconfiguration apparatus 10 for manufacturing components further includes: The verification module is used to verify the material description string using preset compliance rules and obtain the verification result.
[0118] The printing module, when the verification result is successful, uses the material description string as the new material description for the target manufactured component, unlocks the printing permission for the new material description, and prints a nameplate that matches the target shipping location of the target manufactured component using the new material description.
[0119] For a description of the features in the embodiment corresponding to the material description reconstruction apparatus for manufacturing components, please refer to the relevant description in the embodiment corresponding to the material description reconstruction method for manufacturing components, which will not be repeated here.
[0120] Embodiments of this application also provide an electronic device, including a memory and a processor, wherein the memory stores a computer program, and the processor is configured to run the computer program to perform the steps in any of the above embodiments of the material description reconfiguration method for manufacturing components.
[0121] Embodiments of this application also provide a computer-readable storage medium storing a computer program, wherein the computer program is configured to execute the steps in the embodiments of the material description reconstructing method for any of the manufacturing components described above when running.
[0122] In one exemplary embodiment, the aforementioned computer-readable storage medium may include, but is not limited to, various media capable of storing computer programs, such as a USB flash drive, read-only memory (ROM), random access memory (RAM), portable hard disk, magnetic disk, or optical disk.
[0123] Embodiments of this application also provide a computer program product, which includes a computer program that, when executed by a processor, implements the steps in the material description reconstruction method embodiments of any of the manufacturing components described above.
[0124] Embodiments of this application also provide another computer program product, including a non-volatile computer-readable storage medium storing a computer program that, when executed by a processor, implements the steps in the material description reconstructing method embodiments of any of the manufacturing components described above.
[0125] Those skilled in the art will further recognize that the units and algorithm steps of the various examples described in conjunction with the embodiments disclosed herein can be implemented in electronic hardware, computer software, or a combination of both. To clearly illustrate the interchangeability of hardware and software, the components and steps of the various examples have been generally described in terms of functionality in the foregoing description. Whether these functions are implemented in hardware or software depends on the specific application and design constraints of the technical solution. Those skilled in the art can use different methods to implement the described functions for each specific application, but such implementation should not be considered beyond the scope of this application.
[0126] The foregoing has provided a detailed description of a material description reconstruction method for manufacturing components and an electronic device. Specific examples have been used to illustrate the principles and implementation methods of this application. The descriptions of the embodiments above are only intended to help understand the method and core ideas of this application. It should be noted that those skilled in the art can make various improvements and modifications to this application without departing from its principles, and these improvements and modifications also fall within the protection scope of the claims of this application.
Claims
1. A method for reconstructing the material description of a manufacturing component, characterized in that, Includes the following steps: In response to the target manufacturing component being in a flow state, multiple component identifiers of the target manufacturing component are determined; When a portion of the identifiers of multiple component identifiers matches a preset dynamic configuration table, the requirement for the target manufacturing component is identified using identifiers other than the portion of the identifiers. If the requirement is a reconstruction requirement, then the description-related parameters corresponding to the target manufacturing component are retrieved, and the material description of the target manufacturing component is reconstructed by combining the description-related parameters and multiple component identifiers.
2. The method according to claim 1, characterized in that, The step of retrieving description-related parameters corresponding to the target manufacturing component, and reconstructing the material description of the target manufacturing component by combining the description-related parameters and multiple component identifiers, includes: Extract the material code of the target manufacturing component from the multiple component identifiers; Using the material code as an index, retrieve the target test data of the target manufacturing component from the test data of the current production line; The material description of the target manufacturing component is reconstructed using the target test data and multiple component identifiers.
3. The method according to claim 2, characterized in that, After retrieving the target test data for the target manufactured component from the test data of the current production line, the process further includes: If the target test data is not found in the test data within the first preset time period, the target baseline parameters of the target manufacturing component are retrieved from the product file basic data using the material code as an index. The material description of the target manufacturing component is reconstructed using the target baseline parameters and multiple component identifiers.
4. The method according to claim 3, characterized in that, After retrieving the target baseline parameters of the target manufacturing component from the product file basic data using the material code as an index, the method further includes: If the target baseline parameter is not found in the product file basic data within the second preset time period, the printing permission of the target manufacturing component is locked. Record the serial number of the target manufacturing component and generate a corresponding supplementary recording warning signal.
5. The method according to claim 1, characterized in that, When a portion of the identifiers of multiple component identifiers match a preset dynamic configuration table, the requirement to identify the target manufacturing component using identifiers other than the portion of the identifiers includes: Extract the model identifier of the target manufactured component from the multiple component identifiers; Extract the model whitelist from the preset dynamic configuration table; If the model identifier exists in the model whitelist, the component identifier is used to identify the requirement for the target manufacturing component.
6. The method according to claim 5, characterized in that, The requirement to identify the target manufacturing component using identifiers other than the partial identifiers when a portion of the component identifiers matches a preset dynamic configuration table further includes: Extract the work order identifier of the target manufacturing component from the multiple component identifiers, and obtain the target shipping location code of the target manufacturing component based on the work order identifier; Extract the target region identifier corresponding to the target manufacturing component from the preset dynamic configuration table; If a preset matching condition is met between the target shipping location code and the target region identifier, the requirement for the target manufacturing component is identified using identifiers other than the aforementioned identifiers.
7. The method according to claim 6, characterized in that, The requirement to identify the target manufacturing component using identifiers other than the aforementioned partial identifiers includes: Extract the material description and serial number of the target manufacturing component from the other identifiers; Scan the serial number to obtain the scan result; If the scan result indicates that the serial number is valid and the material description is empty, the requirement for the target manufacturing component is determined to be the reconfiguration requirement.
8. The method according to claim 1, characterized in that, The process of reconstructing the material description of the target manufacturing component by combining the description-related parameters and multiple component identifiers includes: Extract the work order identifier and model identifier of the target manufacturing component from the multiple component identifiers, so as to obtain the target shipping location code and order category of the target manufacturing component based on the work order identifier; By combining the model identifier and the material code of the target manufacturing component, a corresponding composite index is generated; Using the target shipping location code and the order category as constraints, the corresponding description template is retrieved using the composite index; Attribute parameters are extracted from the description-related parameters and injected into the description template to generate the corresponding material description string.
9. The method according to claim 8, characterized in that, After generating the corresponding material description string, the following is also included: The material description string is verified using preset compliance rules to obtain the verification result; If the verification result is successful, the material description string is used as the new material description of the target manufacturing component, and the printing permission of the new material description is unlocked so that a nameplate matching the target shipping location of the target manufacturing component can be printed using the new material description.
10. An electronic device, characterized in that, include: Memory, used to store computer programs; A processor, configured to implement the steps of the material description reconstruction method for a manufacturing component as described in any one of claims 1 to 9 when executing the computer program.