CN110992001A - Product design process management method - Google Patents

Abstract

The invention relates to a product design process management method, which comprises the following steps of S1: receiving a design task; s2: judging the task type, if the task type is a product change task, performing change management in the step S201, then performing the step S10, and if the task type is a product design task, performing the step S3; s3: judging whether a new product is developed, if not, processing the new product by using a conventional/special order in the step S301, then performing the step S8, and if so, performing the step S4; s4: newly building product components and maintaining basic information; s5: building a BOM; s6: designing a product document; s7: compiling a process route; s8: product approval and release; s9: issuing design data; s10: managing a process design process; s11: and performing trial production and production. The invention has the advantages of strong interactivity, high efficiency and traceable approval process.

Description

Product design process management method

Technical Field

The invention relates to the technical field of design process management, in particular to a product design process management method.

Background

With the adoption of advanced design and manufacturing means, especially the application of information technology, in industrial production, the product research and development capability and market competitiveness of enterprises are greatly improved.

At present, the following key problems and requirements exist in the management of the product design process:

(1) standardization and normalization aspects of product design flow

Enterprises have standard development processes at present but lack monitoring in execution, documents have missing conditions, attribute management for parts is disordered, and retrieval is inconvenient.

(2) Product design flow efficiency

The design flow is not convenient to interact and not efficient enough under the condition of no system assistance. It is expected that the efficiency of the design flow can be improved and the design work interaction among various personnel can be improved by developing the product design in the system.

(3) Process label-examining aspect

At present, the manual paper label examination process has long period, low efficiency and inconvenient monitoring and tracing. The electronic examination and signature process can be expected to be developed in the system, the process can be automatically signed after examination and signature are completed, examination and signature efficiency is improved, and inquiry and tracing of the process and monitoring in the execution process are facilitated.

Disclosure of Invention

The invention aims to provide a product design process management method which has the advantages of strong interactivity, high efficiency and traceability of an approval process.

The above object of the present invention is achieved by the following technical solutions:

a method of product design process management, the method comprising the steps of: s1: receiving a design task; s2: judging the task type, if the task type is a product change task, performing change management in the step S201, then performing the step S10, and if the task type is a product design task, performing the step S3; s3: judging whether a new product is developed, if not, processing the new product by using a conventional/special order in the step S301, then performing the step S8, and if so, performing the step S4; s4: newly building product components and maintaining basic information; s5: building a BOM; s6: designing a product document; s7: compiling a process route; s8: product approval and release; s9: issuing design data; s10: managing a process design process; s11: and performing trial production and production.

Further, the following steps are also included between the step S4 and the step S5: s401: carrying out newly opened material analysis; s402: judging whether the material is required to be newly opened or not, if so, performing step S5, and if so, performing step S403; s403: creating material information; s404: editing material authentication data; s405: and judging whether the material authentication data evaluation passes, if so, performing the step S5, and if not, returning to the step S404.

Further, the following steps are also included between the step S6 and the step S7: s601: and judging whether the product document passes, if so, performing step S7, and if so, returning to step S6.

Further, the following steps are included between the step S301 and the step S8: s302: selecting and copying similar products; s303: and (5) modifying the design.

Further, the step S201 includes the following steps: s2011: a feedback problem; s2012: receiving a question; s2013: internal evaluation, ending when the evaluation is that the change is rejected, performing step S2014 when the evaluation is that the change is complex, performing step S20111 if the evaluation is that the change is rapid, and jumping to step S20113 after step S20111; s2014: selecting a change object; s2015: filling in application attributes and generating a change application form; s2016: adding a question data object; s2017: analyzing the influence of the change; s2018: adding a changed data object; s2019: submitting a change application flow; s20110: reviewing the change application, if the change application does not pass, ending the change application, and if the change application passes, performing step S20111; s20111: that revision/correction of the data object; s20112: add a solution data object; s20113: compiling a change notice; s20114: submitting a change examination and approval; s20115: reviewing and changing the examination and approval, and if the examination and approval does not pass, returning to the step S20111; if so, go to step S20116; s20116: issuing the modified data; s20117: receiving change data; s20118: changing implementation switching; s20119: change validation and feedback; s20120: receiving a change implementation feedback result; s20121: and (6) ending.

Further, the step S10 includes the following steps: s101: receiving design data; s102: judging the data type, if the data type is product design data, performing step S103, if the data type is design change data, performing step S201 change management, and jumping to step S108 after step S201; s103: compiling and reviewing the process scheme, distributing tasks, and simultaneously respectively performing the steps S104 and S105; s104: compiling a process file, and performing step S108; s105: receiving a tool design task, and performing step S106; s106: designing a tool, and performing step S107; s107: warehousing the tooling, filing the tooling drawing, and performing step S108; s108: issuing process data; s109: trial production and production; s110: and (6) ending.

Further, the step S104 includes the steps of: s1041: compiling a process flow chart; s1042: reviewing and publishing the process flow chart; s1043: generating PFMEA of each process section in a correlation manner; s1044: summarizing each process section PFMEA; s1045: evaluating and issuing PFMEA; s1046: compiling a control plan of each process section; s1047: summarizing control plans of all process sections; s1048: the evaluation and the release of the control plan are carried out; s1049: gathering special characteristics; s10410: evaluating and releasing; s10411: issuing a process card; s10412: trial production and production; s10413: and (6) ending.

Further, the step S106 includes the following steps: s1061: receiving a task; s1062: establishing a tool ITFM and compiling tool requirements; s1063: outsourcing; s1064: uploading an outsourcing tool document; s1065: examining and approving and issuing the tool parts, and simultaneously respectively performing the steps S1066 and S1067; s1066: filing and issuing the tooling drawing, and performing the step S1069; s1067: the tool automatically enters a resource library and the step S1068 is carried out; s1068: during process design, calling a tool resource library, and entering step S10610; s1069: producing a tool; s10610: and (6) ending.

In summary, the invention includes at least one of the following beneficial technical effects:

the project management process of the whole enterprise is transparent, the project management and control capacity is improved, the project development quality is guaranteed, evasive measures are made in advance, and effective and reasonable project resource adjustment is guaranteed.

Drawings

FIG. 1 is a product design process management flow diagram;

FIG. 2 is a design change flow diagram;

FIG. 3 is a process management flow diagram;

FIG. 4 is a process documentation sub-flow diagram;

FIG. 5 is a process design sub-flow diagram.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the product design process management method disclosed by the invention comprises the following steps:

s1: receiving a design task;

s2: judging the task type, if the task type is a product change task, performing change management in the step S201, then performing the step S10, and if the task type is a product design task, performing the step S3;

s3: judging whether a new product is developed, if not, processing the new product by using a conventional/special order in the step S301, then performing the step S8, and if so, performing the step S4;

s4: newly building product components and maintaining basic information;

s5: building a BOM;

s6: designing a product document;

s7: compiling a process route;

s8: product approval and release;

s9: issuing design data;

s10: managing a process design process;

s11: and performing trial production and production.

The steps between the step S4 and the step S5 further include the following steps:

s401: carrying out newly opened material analysis;

s402: judging whether the material is required to be newly opened or not, if so, performing step S5, and if so, performing step S403;

s403: creating material information;

s404: editing material authentication data;

s405: and judging whether the material authentication data evaluation passes, if so, performing the step S5, and if not, returning to the step S404.

The following steps are also included between step S6 and step S7:

s601: and judging whether the product document passes, if so, performing step S7, and if so, returning to step S6.

The steps between S301 and S8 include the following steps: s302: selecting and copying similar products; s303: and (5) modifying the design.

The detailed description of the above steps is shown in table 1, wherein the sequence number is the sequence number of the top left corner of each block in the flowchart of fig. 1.

TABLE 1

As shown in fig. 2, the step S201 of changing management specifically includes the following steps:

s2011: a feedback problem;

s2012: receiving a question;

s2013: internal evaluation, ending when the evaluation is that the change is rejected, performing step S2014 when the evaluation is that the change is complex, performing step S20111 if the evaluation is that the change is rapid, and jumping to step S20113 after step S20111;

s2014: selecting a change object;

s2015: filling in application attributes and generating a change application form;

s2016: adding a question data object;

s2017: analyzing the influence of the change;

s2018: adding a changed data object;

s2019: submitting a change application flow;

s20110: reviewing the change application, if the change application does not pass, ending the change application, and if the change application passes, performing step S20111;

s20111: that revision/correction of the data object;

s20112: add a solution data object;

s20113: compiling a change notice;

s20114: submitting a change examination and approval;

s20115: reviewing and changing the examination and approval, and if the examination and approval does not pass, returning to the step S20111; if so, go to step S20116;

s20116: issuing the modified data;

s20117: receiving change data;

s20118: changing implementation switching;

s20119: change validation and feedback;

s20120: receiving a change implementation feedback result;

s20121: and (6) ending.

The detailed description of the above steps is shown in table 2, wherein the serial number is the serial number of the top left corner of each block in the flowchart of fig. 2.

TABLE 2

As shown in fig. 3, the process design process management of step S10 specifically includes the following steps:

s101: receiving design data;

s102: judging the data type, if the data type is product design data, performing step S103, if the data type is design change data, performing step S201 change management, and jumping to step S108 after step S201;

s103: compiling and reviewing the process scheme, distributing tasks, and simultaneously respectively performing the steps S104 and S105;

s104: compiling a process file, and performing step S108;

s105: receiving a tool design task, and performing step S106;

s106: designing a tool, and performing step S107;

s107: warehousing the tooling, filing the tooling drawing, and performing step S108;

s108: issuing process data;

s109: trial production and production;

s110: and (6) ending.

The detailed description of the above steps is shown in table 3, wherein the serial number is the serial number of the top left corner of each block in the flowchart of fig. 3.

TABLE 3

As shown in fig. 4, the process documentation of step S104 specifically includes the following steps:

s1041: compiling a process flow chart;

s1042: reviewing and publishing the process flow chart;

s1043: generating PFMEA of each process section in a correlation manner;

s1044: summarizing each process section PFMEA;

s1045: evaluating and issuing PFMEA;

s1046: compiling a control plan of each process section;

s1047: summarizing control plans of all process sections;

s1048: the evaluation and the release of the control plan are carried out;

s1049: gathering special characteristics;

s10410: evaluating and releasing;

s10411: issuing a process card;

s10412: trial production and production;

s10413: and (6) ending.

The detailed description of the above steps is shown in table 4, wherein the sequence number is the sequence number of the top left corner of each block in the flowchart of fig. 4.

TABLE 4

As shown in fig. 5, the tool design in step S106 specifically includes the following steps:

s1061: receiving a task;

s1062: establishing a tool ITFM and compiling tool requirements;

s1063: outsourcing;

s1064: uploading an outsourcing tool document;

s1065: examining and approving and issuing the tool parts, and simultaneously respectively performing the steps S1066 and S1067;

s1066: filing and issuing the tooling drawing, and performing the step S1069;

s1067: the tool automatically enters a resource library and the step S1068 is carried out;

s1068: during process design, calling a tool resource library, and entering step S10610;

s1069: producing a tool;

s10610: and (6) ending.

The detailed description of the above steps is shown in table 5, wherein the sequence number is the sequence number of the top left corner of each block in the flowchart of fig. 5.

TABLE 5

By the product design process method, the problems that the existing standard development process lacks monitoring in execution, documents are missing, and the attribute management of parts is disordered and inconvenient to retrieve are solved.

The interactivity and the efficiency under the condition of system assistance are improved.

The problems that the existing manual paper label examining process is long in period, low in efficiency and inconvenient to monitor and trace are solved.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (8)

1. A method for managing a product design process, the method comprising the steps of:

s1: receiving a design task;

s2: judging the task type, if the task type is a product change task, performing change management in the step S201, then performing the step S10, and if the task type is a product design task, performing the step S3;

s3: judging whether a new product is developed, if not, processing the new product by using a conventional/special order in the step S301, then performing the step S8, and if so, performing the step S4;

s4: newly building product components and maintaining basic information;

s5: building a BOM;

s6: designing a product document;

s7: compiling a process route;

s8: product approval and release;

s9: issuing design data;

s10: managing a process design process;

s11: and performing trial production and production.

2. The product design process management method of claim 1, further comprising the following steps between the step S4 and the step S5:

s401: carrying out newly opened material analysis;

s402: judging whether the material is required to be newly opened or not, if so, performing step S5, and if so, performing step S403;

s403: creating material information;

s404: editing material authentication data;

s405: and judging whether the material authentication data evaluation passes, if so, performing the step S5, and if not, returning to the step S404.

3. The product design process management method of claim 1, further comprising the following steps between the step S6 and the step S7:

s601: and judging whether the product document passes, if so, performing step S7, and if so, returning to step S6.

4. The product design process management method according to claim 1, wherein the step S301 and the step S8 comprise the following steps:

s302: selecting and copying similar products;

s303: and (5) modifying the design.

5. The product design process management method according to claim 1, wherein the step S201 comprises the steps of:

s2011: a feedback problem;

s2012: receiving a question;

s2013: internal evaluation, ending when the evaluation is that the change is rejected, performing step S2014 when the evaluation is that the change is complex, performing step S20111 if the evaluation is that the change is rapid, and jumping to step S20113 after step S20111;

s2014: selecting a change object;

s2015: filling in application attributes and generating a change application form;

s2016: adding a question data object;

s2017: analyzing the influence of the change;

s2018: adding a changed data object;

s2019: submitting a change application flow;

s20110: reviewing the change application, if the change application does not pass, ending the change application, and if the change application passes, performing step S20111;

s20111: that revision/correction of the data object;

s20112: add a solution data object;

s20113: compiling a change notice;

s20114: submitting a change examination and approval;

s20115: reviewing and changing the examination and approval, and if the examination and approval does not pass, returning to the step S20111; if so, go to step S20116;

s20116: issuing the modified data;

s20117: receiving change data;

s20118: changing implementation switching;

s20119: change validation and feedback;

s20120: receiving a change implementation feedback result;

s20121: and (6) ending.

6. The product design process management method according to claim 1, wherein the step S10 comprises the steps of:

s101: receiving design data;

s102: judging the data type, if the data type is product design data, performing step S103, if the data type is design change data, performing step S201 change management, and jumping to step S108 after step S201;

s103: compiling and reviewing the process scheme, distributing tasks, and simultaneously respectively performing the steps S104 and S105;

s104: compiling a process file, and performing step S108;

s105: receiving a tool design task, and performing step S106;

s106: designing a tool, and performing step S107;

s107: warehousing the tooling, filing the tooling drawing, and performing step S108;

s108: issuing process data;

s109: trial production and production;

s110: and (6) ending.

7. The product design process management method of claim 6, wherein the step S104 comprises the steps of:

s1041: compiling a process flow chart;

s1042: reviewing and publishing the process flow chart;

s1043: generating PFMEA of each process section in a correlation manner;

s1044: summarizing each process section PFMEA;

s1045: evaluating and issuing PFMEA;

s1046: compiling a control plan of each process section;

s1047: summarizing control plans of all process sections;

s1048: the evaluation and the release of the control plan are carried out;

s1049: gathering special characteristics;

s10410: evaluating and releasing;

s10411: issuing a process card;

s10412: trial production and production;

s10413: and (6) ending.

8. The product design process management method of claim 6, wherein the step S106 comprises the steps of:

s1061: receiving a task;

s1062: establishing a tool ITFM and compiling tool requirements;

s1063: outsourcing;

s1064: uploading an outsourcing tool document;

s1065: examining and approving and issuing the tool parts, and simultaneously respectively performing the steps S1066 and S1067;

s1066: filing and issuing the tooling drawing, and performing the step S1069;

s1067: the tool automatically enters a resource library and the step S1068 is carried out;

s1068: during process design, calling a tool resource library, and entering step S10610;

s1069: producing a tool;

s10610: and (6) ending.

Images