CN114819869A - Aviation product engineering change control management system - Google Patents

Abstract

The invention discloses an aviation product engineering change control management system, which comprises an engineering change order execution subsystem, a check plan management subsystem and a numerical control program management subsystem; the engineering change order execution subsystem is used for analyzing the engineering change order information and the production progress information of the part; the inspection plan management subsystem is used for enabling process personnel to issue an inspection plan according to the engineering change order and feeding the inspection plan back to a disposal task of the engineering change order; the numerical control program management subsystem is used for the process personnel to compile corresponding numerical control programs according to the engineering change tasks issued by the engineering change list and feed back the completion results to the disposal tasks of the engineering change list. The invention provides a query platform for engineering change information, product production information, inspection plan information and numerical control program information, which realizes the monitoring of the whole process of engineering change implementation, reduces the situations of missing and wrong execution of engineering change and simultaneously improves the statistical efficiency of the engineering change information.

Description

Aviation product engineering change control management system

Technical Field

The invention belongs to the technical field of informatization systems, and particularly relates to an aviation product engineering change control management system.

Background

In the aviation field, due to the fact that a product is complex in structure, the number of components is large, iteration updating of the product is fast, engineering change (design change, handover change and the like) of the product is frequent in the manufacturing process, and particularly in the development stage of a new project, due to the fact that the product is unshaped, the engineering change and the design and the manufacturing of the product can be carried out synchronously, and great difficulty is brought to manufacturing management. If the engineering change is executed in a missing way, the product is reworked if the engineering change is executed in a missing way, and the product is scrapped if the engineering change is executed in a heavy way, and even the safety performance of the whole product equipment is influenced. The execution of engineering change needs the cooperation of multiple departments such as a design department, a process department, a production department, an inspection department and the like, and the management difficulty is high. At present, the engineering change management process of many enterprises is mainly embodied through paper forms, and under this mode, the information acquisition of each participant is relatively lagged, can't effectively judge the processing mode of part in time, has brought unpredictable's risk for the engineering change execution of part. Therefore, it is necessary to optimize the engineering change management process in an informatization management mode, so that the engineering change execution process is made explicit in an enterprise, the execution efficiency and execution strength of the engineering change in the enterprise are improved, and the real-time information sharing of each link in the execution process is enhanced.

Disclosure of Invention

The invention aims to provide an aviation product engineering change control management system which can track and record an engineering change execution process, share data in real time, control validity of a check plan, a numerical control program and the like in a manufacturing process, overcome the defects of the existing paper operation mode and reduce the problems of reworking and scrapping of parts caused by missing execution of engineering change.

The invention is realized by the following technical scheme: an aviation product engineering change control management system comprises an engineering change list execution subsystem, a check plan management subsystem and a numerical control program management subsystem;

the engineering change order execution subsystem is used for analyzing the engineering change order information and the production progress information of the parts in the products and the stock products;

the inspection plan management subsystem is used for the process personnel to compile a corresponding inspection plan according to the engineering change task issued by the engineering change list and feeding the completion result back to the disposal task of the engineering change list;

the numerical control program management subsystem is used for the process personnel to compile corresponding numerical control programs according to the engineering change tasks issued by the engineering change list and feeding the completion results back to the disposal tasks of the engineering change list.

The working principle of the technical scheme is that,

in order to better implement the invention, further, the engineering change judgment in the engineering change execution subsystem includes a return-to-zero judgment and a starting execution process, the execution process module includes a process handling module, a scheduling handling module, a workshop section processing module and a task feedback module which are arranged in parallel, and the process handling module, the scheduling handling module and the workshop section processing module are all connected with a checking module for return-to-zero.

In order to better realize the invention, the engineering change execution subsystem further comprises an authority management module, a numbering template maintenance module, a data modification module and an inquiry and statistics module;

the authority management module is used for setting roles of personnel in the system;

the number template maintenance module is used for setting the automatic generation mode of the numbers of the different product change lists;

the data modification module is used for the information processing personnel to provide data modification application, and the system automatically modifies and updates the data after being checked by related personnel;

and the query statistical module is used for quickly querying and counting the data under different query conditions.

In order to better realize the invention, the authority management module sets the roles of personnel in the system to comprise process personnel, scheduling personnel and quality control personnel.

In order to better realize the invention, the inspection plan management subsystem mainly comprises an inspection plan compiling module, an inspection plan examining and signing module and an inspection plan downloading and printing module which are sequentially connected, wherein the inspection plan examining and signing module is connected with a task feedback module in the engineering change execution subsystem.

In order to better realize the invention, the numerical control program management subsystem mainly comprises a numerical control program compiling module, a numerical control program examining and signing module, a trial cutting module and a warehousing module which are connected in sequence, wherein the numerical control program examining and signing module is connected with a task feedback module in the engineering change execution subsystem.

In order to better realize the invention, the engineering change list execution subsystem, the inspection plan management subsystem and the numerical control program management subsystem are developed based on an Oracle database and Visual 0C # language, and adopt a B/S architecture.

Compared with the prior art, the invention has the following advantages and beneficial effects:

(1) the invention carries out brand-new combing on the execution flow of the engineering change, can record the execution process of the engineering change, clearly prescribes the role definition and responsibility of each department in the execution process of the engineering change, can effectively control the production progress of products, brings the management of the verification plan and the validity of numerical control programs into a system for the first time, and carries out multi-layer gate-keeping verification on the conditions of the possible missed execution of the engineering change and the like;

(2) the invention can be applied to the manufacture of complex equipment such as aviation products and the like, provides a data sharing platform of an engineering change execution process for a process department, a production department, an inspection department and a management department, and improves the efficiency of multi-department cooperative work;

(4) the invention realizes the full-flow monitoring of the engineering change execution process, displays the execution progress of each engineering change in a chart form in real time, reduces the possible missed execution rate of the engineering change and improves the product quality. The invention realizes the one-key query statistical analysis function, reduces the workload of management personnel and provides data support for a decision layer.

(5) The invention provides a query platform of engineering change information, product production information, inspection plan information and numerical control program information for relevant personnel, realizes the monitoring of the whole process of engineering change implementation, displays the progress of the task process executed by the engineering change in real time, and feeds back and verifies tasks among subsystems mutually, thereby reducing the situations of missing execution of the engineering change and wrong execution of the engineering change and simultaneously improving the statistical efficiency of the engineering change information.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a logical block diagram of an engineering change execution monitoring management system of the present invention;

FIG. 2 is an engineering change order execution subsystem interface of the present invention;

FIG. 3 is a verification plan management subsystem interface of the present invention;

FIG. 4 is a numerical control program management subsystem interface of the present invention.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

the main structure of this embodiment, as shown in fig. 1, includes an engineering change order execution subsystem, a test plan management subsystem, and a numerical control program management subsystem;

the engineering change order execution subsystem is used for analyzing the engineering change order information and the production progress information of the parts in the products and the stock products;

the inspection plan management subsystem is used for the process personnel to compile a corresponding inspection plan according to the engineering change task issued by the engineering change list and feeding the completion result back to the disposal task of the engineering change list;

the numerical control program management subsystem is used for the process personnel to compile corresponding numerical control programs according to the engineering change tasks issued by the engineering change list and feeding the completion results back to the disposal tasks of the engineering change list.

The management system mainly comprises an engineering change order (design change order or cross-connection order) execution subsystem, an inspection plan management subsystem and a numerical control program management subsystem. The engineering change execution subsystem mainly comprises an engineering change list execution flow initiation module, a process disposal module, a scheduling disposal module and an inspection confirmation execution module and is used for analyzing the engineering change list information and the production progress information of the parts in the process and the stock. According to the engineering change task issued by the engineering change order, a process worker firstly judges whether the change order task is related to the manufacturing department, a quality control worker starts the engineering change execution flow related to the manufacturing department, and the result is fed back to the inspection plan management subsystem and the numerical control program management subsystem so as to freeze the inspection plan of the corresponding product and download and use the numerical control program. The process personnel issues opinions on the disposal mode of the work-in-process, the production personnel cleans the work-in-process, the stock and the production workshop section to which the work-in-process belongs, the work-in-process, the stock and the production workshop section are matched with the disposal result of the process personnel, whether the part needs workshop section reworking or not is judged, and the inspection personnel confirms whether the part carries out engineering change or not.

Wherein, the engineering change list executes the subsystem interface, as shown in fig. 2;

a verification plan management subsystem interface, as shown in FIG. 3;

and (4) managing a subsystem interface by the numerical control program, as shown in figure 4.

The engineering change list execution subsystem is characterized in that firstly, a process worker judges whether the engineering change is related to the manufacturing department, and if not, a quality control worker directly returns to zero. If the data is related, a quality control worker starts the engineering change execution flow, a process worker makes an opinion on the processing condition of the products in process, a scheduling worker cleans the quality numbers and the quantity of the products in process and the stock products, a workshop section carries out a rework processing mode on the parts needing rework, the data download permission of the same product in the inspection plan management subsystem and the numerical control program management subsystem is frozen, and a task of compiling a new inspection plan and a new numerical control program is generated. When the inspection personnel deliver the parts, the part delivery system can prompt whether the drawing number has the engineering change needing to be executed or not, and the inspection personnel need to check one by one and feed back the execution condition. Each step of operation in the system is automatically recorded by the system according to the operation time, the personnel name and the personnel number information.

The subsystem also comprises a right management module for setting the roles (process, scheduling and quality control) of the personnel in the system; the number template maintenance module is used for setting a mode of automatically generating the numbers of the different product change lists; the data modification module is used for the information processing personnel to provide data modification application, and the system automatically modifies and updates after being audited by related personnel; and the query statistic module is used for quickly querying and counting the data under different query conditions.

The inspection plan management subsystem compiles an inspection plan by a craftsman according to an inspection plan compiling task generated by the engineering change order execution subsystem, the inspection plan enters the download printing module after being checked and issued, and meanwhile, the system automatically feeds back the completion condition of the inspection plan compiling to the engineering change order execution subsystem.

The numerical control program management subsystem is used for compiling a numerical control program by a craftsman according to a numerical control program compiling task generated by the engineering change order execution subsystem, the numerical control program enters the trial cut module after being checked and issued, the numerical control program enters the program library for being downloaded and used by a producer after the trial cut part is qualified and approved by a checker, and simultaneously, the system automatically feeds back the completion condition of compiling the tax control program to the engineering change order execution subsystem.

The product manufacturing unit initiates an engineering change execution flow, and the engineering technical room is responsible for controlling the process files and the process equipment related to the engineering change, so as to ensure that the process files meet the requirements of the engineering change files. The production management room is responsible for cleaning the work-in-process according to the requirements of engineering change contents, controlling the received part manufacturing outline, controlling the processing of the work-in-process and the cleaning of stock products, and delivering, distributing and using the finished parts according to effective batch and frame times. Each manufacturing section is responsible for submitting the process files related to engineering change to process treatment and is responsible for the process of work-in-process treatment. The quality control group is responsible for supervising the execution condition of the engineering change, carrying out zero-returning management on the execution condition of the engineering change file, and the inspection group is responsible for accepting the modified technical data and supervising the execution of the engineering change by a production unit.

Example 2:

in this embodiment, on the basis of the above embodiment, an engineering change execution subsystem is further defined, wherein the engineering change judgment performed in the engineering change execution subsystem includes a zeroing judgment and an execution process starting, the execution process module includes a process handling module, a scheduling handling module, a workshop section processing module, and a task feedback module, which are arranged in parallel, and the process handling module, the scheduling handling module, and the workshop section processing module are all further connected with a checking module. Other parts of this embodiment are the same as those of the above embodiment, and are not described again.

Example 3:

on the basis of the above embodiment, the present embodiment further defines an engineering change execution subsystem, where the engineering change execution subsystem further includes an authority management module, a numbering template maintenance module, a data modification module, and a query statistics module;

the authority management module is used for setting roles of personnel in the system;

the number template maintenance module is used for setting the automatic generation mode of the numbers of the different product change lists;

the data modification module is used for the information processing personnel to provide data modification application, and the system automatically modifies and updates after being audited by related personnel;

and the query statistical module is used for quickly querying and counting the data under different query conditions. Other parts of this embodiment are the same as those of the above embodiment, and are not described again.

Example 4:

on the basis of the above embodiments, the present embodiment further defines roles of the personnel in the system set by the limit management module, where the roles of the personnel in the system set by the authority management module include process personnel, scheduling personnel, and quality control personnel. Other parts of this embodiment are the same as those of the above embodiment, and are not described again.

Example 5:

in this embodiment, on the basis of the above embodiment, a verification plan management subsystem is further defined, where the verification plan management subsystem mainly includes a verification plan compiling module, a verification plan examining and signing module, and a verification plan downloading and printing module, which are connected in sequence, and the verification plan examining and signing module is connected to a task feedback module in the engineering change execution subsystem. Other parts of this embodiment are the same as those of the above embodiment, and are not described again.

Example 6:

in this embodiment, on the basis of the above embodiment, a numerical control program management subsystem is further defined, and the numerical control program management subsystem mainly includes a numerical control program programming module, a numerical control program approval module, a trial cut module, and a warehousing module, which are connected in sequence, and the numerical control program approval module is connected with a task feedback module in the engineering change execution subsystem. Other parts of this embodiment are the same as those of the above embodiment, and are not described again.

Example 7:

in this embodiment, a system source is further limited on the basis of the above embodiment, and the engineering change order execution subsystem, the inspection plan management subsystem, and the numerical control program management subsystem are developed based on an Oracle database and Visual 0C # language, and adopt a B/S architecture. Other parts of this embodiment are the same as those of the above embodiment, and are not described again.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (7)

1. An aviation product engineering change control management system is characterized by comprising an engineering change list execution subsystem, an inspection plan management subsystem and a numerical control program management subsystem;

the engineering change order execution subsystem is used for analyzing the engineering change order information and the production progress information of the parts in the products and the stock products;

the inspection plan management subsystem is used for the process personnel to compile a corresponding inspection plan according to the engineering change task issued by the engineering change list and feeding the completion result back to the disposal task of the engineering change list;

the numerical control program management subsystem is used for the process personnel to compile corresponding numerical control programs according to the engineering change tasks issued by the engineering change list and feeding the completion results back to the disposal tasks of the engineering change list.

2. The system for controlling and managing aviation product engineering change according to claim 1, wherein the engineering change judgment in the engineering change execution subsystem includes a return-to-zero judgment and a start execution process, the execution process module includes a process handling module, a scheduling handling module, a workshop section processing module, and a task feedback module, which are arranged in parallel, and the process handling module, the scheduling handling module, and the workshop section processing module are all further connected with a checking and return-to-zero module.

3. The system for controlling and managing the alteration of an aerospace product project of claim 2, wherein the project alteration performing subsystem further comprises a rights management module, a numbering template maintenance module, a data modification module, and a query statistics module;

the authority management module is used for setting roles of personnel in the system;

the number template maintenance module is used for setting the automatic generation mode of the numbers of the different product change lists;

the data modification module is used for the information processing personnel to provide data modification application, and the system automatically modifies and updates after being audited by related personnel;

and the query statistical module is used for quickly querying and counting the data under different query conditions.

4. The system of claim 3, wherein the privilege management module sets roles of personnel in the system including process personnel, scheduling personnel, and quality control personnel.

5. The system for controlling and managing aviation product engineering change according to any one of claims 2 to 4, wherein the inspection plan management subsystem mainly comprises an inspection plan preparation module, an inspection plan examination and signing module and an inspection plan downloading and printing module which are sequentially connected, and the inspection plan examination and signing module is connected with a task feedback module in the engineering change execution subsystem.

6. The system for controlling and managing aviation product engineering change according to any one of claims 2 to 4, wherein the numerical control program management subsystem mainly comprises a numerical control program programming module, a numerical control program examination and signing module, a trial cut module and a warehousing module which are connected in sequence, and the numerical control program examination and signing module is connected with a task feedback module in the engineering change execution subsystem.

7. The aviation product engineering change control management system according to any one of claims 1 to 4, wherein the engineering change order execution subsystem, the inspection plan management subsystem and the numerical control program management subsystem are developed based on an Oracle database and Visual 0C # language, and adopt a B/S architecture.

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