CN112132448A - Car life cycle management system - Google Patents
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Abstract
The application relates to the technical field of vehicles and discloses an automobile life cycle management system, which comprises: material identification equipment, enterprise resource management system, image identification equipment, production management system and data management system. By implementing the embodiment of the application, the accuracy of assembling each part of the vehicle and the accuracy of key assembling can be realized, the assembling condition of the vehicle at that time can be traced, and the vehicle of problem reasons and assembling problem parts can be traced after the vehicle has problems.
Description
Technical Field
The application relates to the technical field of vehicles, in particular to an automobile life cycle management system.
Background
With the fact that China becomes the first major automobile production and consumption country in the world, many independent brands of automobiles compete for birth, but the competition is more severe, so that the improvement of the quality of automobile models and the reduction of the cost of the automobiles become a problem which automobile manufacturers must face. In traditional car final assembly factory, the parts letter sorting, the delivery, the guide file of the assembly of part is all artifical the completion on the production line to check, trace back the measure weak, can lead to some parts neglected loading, misloading, find the problem need get into the debugging workshop after the motorcycle type is rolled off the production line and seek the problem, or the motorcycle type gets into to recall after the market, will take place the problem that can't accurately trace back the problem part this time, cause unnecessary cost waste or the risk of recalling the problem motorcycle type completely.
Disclosure of Invention
The embodiment of the application discloses an automobile life cycle management system, which can realize the accuracy of the assembly of each part of a vehicle and the accuracy of key assembly, and can trace back the current assembly condition of the vehicle, and trace back the vehicle of problem reasons and assembly problem parts after the vehicle has a problem.
The embodiment of the application discloses car life cycle management system, the system includes: material identification equipment, enterprise resource management system, image recognition equipment, production management system and data management system, wherein:
the material identification equipment is used for identifying and recording information of parts taken by workers at each assembly station from the material rack and sending the information to the production management system;
the production management system is used for sequentially carrying out primary comparison on information of parts taken by workers at each assembly station from the material frame and information of parts required to be assembled at each assembly station, if any one primary comparison result is inconsistent, displaying a primary reason point with the inconsistent any one primary comparison result on a display screen of the corresponding assembly station and the production management system, and executing assembly station alarm corresponding to the primary reason point; if all the first-level comparison results are consistent, entering a normal part assembly link;
in a normal part assembling link, the image recognition equipment is used for recording and recognizing part installation actions and part installation completion states of workers at each assembling station and feeding back the part installation actions and the part installation completion states to the production management system;
the production management system is also used for sequentially carrying out secondary comparison on the part installation actions and the part installation completion states of workers of all the assembly stations and the part installation actions and the part installation completion states set for all the assembly stations by the system, if any one secondary comparison result is inconsistent, displaying a secondary reason point with the inconsistent any one secondary comparison result on a display screen of the corresponding assembly station and the production management system, and executing assembly station alarm corresponding to the secondary reason point; if all the secondary comparison results are consistent, entering a vehicle offline detection link;
in the off-line detection link of the vehicle, if the abnormal function of the vehicle is detected, the production management system is also used for calling and analyzing a record file in the production management system during the assembly of the part according to the input vehicle identification code so as to determine whether the production is abnormal, and if the assembly of the part is not standard, the part is reassembled according to the assembly requirement; if the quality of the parts is abnormal, the enterprise resource management system is used for tracing the ex-warehouse time and the inventory of the parts with abnormal quality, and the production management system is also used for tracing the vehicles assembled by the parts with abnormal quality which are ex-warehouse; if the production is normal, the data management system is used for calling out parts of the vehicle and judging whether part design problems exist or not, if the part design problems exist, the production management system is also used for searching the vehicles with which vehicle identification codes the parts with the design problems are assembled on, and the enterprise resource management system is also used for searching the inventory of the parts with the design problems and finishing the tracing.
Preferably, in the vehicle offline detection link, if the vehicle function is detected to be normal, the vehicle is sold through a 4S store or a market, and if there is an after-sale problem after the vehicle is sold, the production management system is further configured to call and analyze a record file during component assembly in the production management system according to the input vehicle identification code to determine whether production is abnormal, and if the component assembly is not standard, the component is reassembled according to the assembly requirement; if the quality of the parts is abnormal, the enterprise resource management system is used for tracing the ex-warehouse time and the inventory of the parts with abnormal quality, and the production management system is also used for tracing the vehicles assembled by the parts with abnormal quality which are ex-warehouse; if the production is normal, the data management system is used for calling out parts of the vehicle and judging whether part design problems exist or not, if the part design problems exist, the production management system is also used for searching the vehicles with which vehicle identification codes the parts with the design problems are assembled on, and the enterprise resource management system is also used for searching the inventory of the parts with the design problems and finishing the tracing.
Preferably, the information of the part includes a part unique number and a part version number.
Preferably, the production management system is further configured to, after performing the alarm of the assembly station corresponding to the primary cause point, prompt an incorrect unique part number + version number and a correct unique part number + version number on a display screen of the corresponding assembly station, and slow down the operation speed of the production line, when a worker makes a decision: i.e. stop the production line or replace the correct parts.
Preferably, the production management system is further configured to slow down the production line running speed after performing the assembly station alarm corresponding to the secondary reason point, and wait for a worker to make a decision: namely stopping the production line, emergently making up errors or performing off-line post-treatment.
Preferably, the primary cause points include mounting parts of an incorrect vehicle type, assembling parts of a correct vehicle type out of a prescribed order, or identifying fewer parts at respective assembly stations than are required to be assembled.
Preferably, the secondary cause point comprises forgetting to torque the fastener with the torque setting tool or the two part-matching clearance does not satisfy a set value.
Compared with the prior art, the embodiment of the application has at least the following beneficial effects:
in the embodiment of the application, the accuracy of the assembly of each part of the vehicle and the accuracy of the key assembly can be realized, the current assembly condition of the vehicle can be traced, and the problem reason and the vehicle of the assembly problem part can be traced after the vehicle has a problem.
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In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.
FIG. 1 is a block diagram of an exemplary embodiment of a vehicle lifecycle management system;
FIG. 2 is a schematic workflow diagram of the vehicle lifecycle management system shown in FIG. 1.
Detailed Description
The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
The embodiment of the application discloses an automobile life cycle management system, which can realize the accuracy of the assembly of each part of a vehicle and the accuracy of key assembly, and can trace back the current assembly condition of the vehicle, and trace back the vehicle of problem reasons and assembly problem parts after the vehicle has a problem. The following detailed description is made with reference to the accompanying drawings.
Referring to fig. 1 to 2, fig. 1 is a schematic view illustrating a module of a car lifecycle management system according to an embodiment of the present disclosure, and fig. 2 is a schematic view illustrating a work flow of the car lifecycle management system shown in fig. 1. The automobile life cycle management system disclosed by the embodiment of the application comprises:
material identification equipment 1, enterprise resource management system 2, image recognition equipment 3, production management system 4 and data management system 5, wherein:
the material identification device 1 is used for identifying and recording information of parts taken by workers at each assembly station from the material rack and sending the information to the production management system 4. In the automobile lifecycle management system shown in fig. 1, information of parts constituting a vehicle must include, but is not limited to, a part unique number, which is a unique identification of the part retrieved from a bill of materials, but it cannot record the state of the part. The other is the version number of the part, which is used for recording the number of times of the design change of the part, the initial value is 001, the version number is increased by 1 every time the design change occurs, and the version number records the state of the part. The unique part number + version number can accurately identify the parts used by the vehicle after assembly and the states thereof. For example, only knowing a unique number of a certain part of a vehicle, but not knowing the version number thereof, it is impossible to know which version the part of the vehicle is assembled, and random replacement of the wrong version of the part may result in that the part cannot be assembled, the vehicle does not meet the design requirements, or even a serious failure.
The production management system 4 is used for sequentially carrying out primary comparison on information of parts taken from the material frame by workers at each assembly station and information of parts required to be assembled at each assembly station, if any one primary comparison result is inconsistent, displaying a primary reason point with the inconsistent any one primary comparison result on a display screen of the corresponding assembly station and the production management system, and executing assembly station alarm corresponding to the primary reason point; if all the first-level comparison results are consistent, entering a normal part assembly link; for example, the primary reason points include installing parts of the incorrect vehicle type, assembling parts of the correct vehicle type out of a prescribed order, or identifying fewer parts at the respective assembly stations than are needed, and so on. For example, when the primary reason point is a part for installing an incorrect vehicle model, the executing of the assembly station alarm corresponding to the primary reason point is as follows: executing alarm of replacing parts of a correct vehicle type at the assembly station corresponding to the primary reason point; for another example, when the primary reason point is a part for which a correct vehicle model is not assembled in a specified order, the performing of the assembly station alarm corresponding to the primary reason point is: executing alarm of assembling parts of a correct vehicle type according to a specified sequence by an assembling station corresponding to the primary reason point; for another example, when the parts identified by the primary reason points for the corresponding assembly stations are less than the parts to be assembled, the performing of the assembly station alarm corresponding to the primary reason points is as follows: and executing alarm of assembling neglected-installed parts at the assembling station corresponding to the primary reason point. Further, the production management system 4 is further configured to, after performing an alarm of the assembly station corresponding to the primary cause point, prompt an incorrect unique part number + version number and a correct unique part number + version number on a display screen of the corresponding assembly station, slow down a production line running speed, and wait for a worker to make a decision: i.e. stop the production line or replace the correct parts.
In the normal part assembly process, the image recognition device 3 is used for recording and recognizing part installation actions and part installation completion states of workers at each assembly station and feeding the part installation actions and the part installation completion states back to the production management system 4.
The production management system 4 is further configured to perform secondary comparison on the part installation actions and the part installation completion states of the workers at each assembly station and the part installation actions and the part installation completion states set by the system for each assembly station in sequence, and if any one secondary comparison result is inconsistent, display a secondary reason point with the inconsistent any one secondary comparison result on a display screen of the corresponding assembly station and the production management system 4, and perform assembly station alarm corresponding to the secondary reason point; and if all the secondary comparison results are consistent, entering a vehicle offline detection link. For example, the secondary points of cause include, but are not limited to, forgetting to torque the fastener with a torque setting tool or two part mating clearances not meeting a set value. For example, when the secondary reason point is that a torque is fixed on a fastener by a torque fixing tool, the assembly station alarm corresponding to the secondary reason point is executed as follows: and executing an assembly station corresponding to the secondary reason point to perform torque-fixing alarm on the fastener by using a torque-fixing tool. For another example, when the two part matching gaps do not satisfy the set value, the assembly station corresponding to the two part matching gaps is set as: and executing alarm of overlarge matching gap between two parts of the assembly station corresponding to the secondary reason point. Further, the production management system 4 is further configured to slow down the operation speed of the production line after performing the alarm of the assembly station corresponding to the secondary reason point, and wait for a worker to make a decision: namely stopping the production line, emergently making up errors or performing off-line post-treatment.
In the vehicle offline detection link, if the vehicle function is detected to be abnormal, the production management system 4 is also used for calling and analyzing a record file in the production management system 4 during part assembly according to the input vehicle identification code to determine whether the production is abnormal, and if the part assembly is not standard, the part is reassembled according to the assembly requirement; if the quality of the parts is abnormal, the enterprise resource management system 2 is used for tracing the ex-warehouse time and the inventory of the parts with abnormal quality, and the production management system 4 is also used for tracing the vehicles assembled by the parts with abnormal quality which are ex-warehouse; if the production is normal, the data management system 5 is used for calling out parts of the vehicle and judging whether part design problems exist or not, if the part design problems exist, the production management system 4 is also used for searching the vehicles with which vehicle identification codes the parts with the design problems are assembled on, and the enterprise resource management system 2 is also used for searching the inventory of the parts with the design problems and finishing the tracing.
Or, in the vehicle offline detection link, if the vehicle function is detected to be normal, the vehicle is sold through a 4S shop or a market, if the vehicle has an after-sale problem after the vehicle is sold, the production management system 4 is further used for calling and analyzing a record file during the part assembly in the production management system 4 according to the input vehicle identification code to determine whether the production is abnormal, and if the part assembly is not standard, the part is reassembled according to the assembly requirement; if the quality of the parts is abnormal, the enterprise resource management system 2 is used for tracing the ex-warehouse time and the inventory of the parts with abnormal quality, and the production management system 4 is also used for tracing the vehicles assembled by the parts with abnormal quality which are ex-warehouse; if the production is normal, the data management system 5 is used for calling out parts of the vehicle and judging whether part design problems exist or not, if the part design problems exist, the production management system is also used for searching the vehicles with which vehicle identification codes the parts with the design problems are assembled on, and the enterprise resource management system is also used for searching the inventory of the parts with the design problems and finishing the tracing.
The embodiment of the application discloses car life cycle management system can realize the accuracy of each part assembly of vehicle and the accuracy of key assembly to can trace back the current assembly condition of vehicle, after the vehicle goes wrong, trace back the vehicle of problem reason and assembly problem part.
While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.
Claims (8)
1. An automotive lifecycle management system, the system comprising: material identification equipment, enterprise resource management system, image identification equipment, production management system and data management system.
2. The automotive lifecycle management system of claim 1, wherein:
the material identification equipment is used for identifying and recording information of parts taken by workers at each assembly station from the material rack and sending the information to the production management system;
the production management system is used for sequentially carrying out primary comparison on information of parts taken by workers at each assembly station from the material frame and information of parts required to be assembled at each assembly station, if any one primary comparison result is inconsistent, displaying a primary reason point with the inconsistent any one primary comparison result on a display screen of the corresponding assembly station and the production management system, and executing assembly station alarm corresponding to the primary reason point; if all the first-level comparison results are consistent, entering a normal part assembly link;
in a normal part assembling link, the image recognition equipment is used for recording and recognizing part installation actions and part installation completion states of workers at each assembling station and feeding back the part installation actions and the part installation completion states to the production management system;
the production management system is also used for sequentially carrying out secondary comparison on the part installation actions and the part installation completion states of workers of all the assembly stations and the part installation actions and the part installation completion states set for all the assembly stations by the system, if any one secondary comparison result is inconsistent, displaying a secondary reason point with the inconsistent any one secondary comparison result on a display screen of the corresponding assembly station and the production management system, and executing assembly station alarm corresponding to the secondary reason point; if all the secondary comparison results are consistent, entering a vehicle offline detection link;
in the off-line detection link of the vehicle, if the abnormal function of the vehicle is detected, the production management system is also used for calling and analyzing a record file in the production management system during the assembly of the part according to the input vehicle identification code so as to determine whether the production is abnormal, and if the assembly of the part is not standard, the part is reassembled according to the assembly requirement; if the quality of the parts is abnormal, the enterprise resource management system is used for tracing the ex-warehouse time and the inventory of the parts with abnormal quality, and the production management system is also used for tracing the vehicles assembled by the parts with abnormal quality which are ex-warehouse; if the production is normal, the data management system is used for calling out parts of the vehicle and judging whether part design problems exist or not, if the part design problems exist, the production management system is also used for searching the vehicles with which vehicle identification codes the parts with the design problems are assembled on, and the enterprise resource management system is also used for searching the inventory of the parts with the design problems and finishing the tracing.
3. The automotive lifecycle management system of claim 2, wherein:
in the off-line detection link of the vehicle, if the function of the vehicle is detected to be normal, the vehicle is sold through a 4S shop or a market, and if the after-sale problem exists after the vehicle is sold, the production management system is also used for calling and analyzing a record file during part assembly in the production management system according to the input vehicle identification code so as to determine whether the production is abnormal, and if the part assembly is not standard, the part is reassembled according to the assembly requirement; if the quality of the parts is abnormal, the enterprise resource management system is used for tracing the ex-warehouse time and the inventory of the parts with abnormal quality, and the production management system is also used for tracing the vehicles assembled by the parts with abnormal quality which are ex-warehouse; if the production is normal, the data management system is used for calling out parts of the vehicle and judging whether part design problems exist or not, if the part design problems exist, the production management system is also used for searching the vehicles with which vehicle identification codes the parts with the design problems are assembled on, and the enterprise resource management system is also used for searching the inventory of the parts with the design problems and finishing the tracing.
4. The automotive lifecycle management system according to claim 2 or 3, wherein the information of the part comprises a part unique number and a part version number.
5. The automobile life cycle management system of claim 4, wherein the production management system is further configured to prompt a wrong unique part number + version number and a correct unique part number + version number on a display screen of a corresponding assembly station after performing the alarm of the assembly station corresponding to the primary reason point, and slow down the operation speed of the production line until a worker makes a decision: i.e. stop the production line or replace the correct parts.
6. The automotive lifecycle management system of claim 5, further configured to slow down line operations after performing assembly station alerts corresponding to the secondary cause points, awaiting a worker to make a decision: namely stopping the production line, emergently making up errors or performing off-line post-treatment.
7. The vehicle lifecycle management system of claim 6, wherein the primary reason points comprise installing parts of an incorrect vehicle model, assembling parts of a correct vehicle model out of a prescribed order, or identifying fewer parts at the respective assembly stations than are required to be assembled.
8. The vehicle lifecycle management system of claim 7, wherein the secondary cause points comprise forgetting to torque the fastener with a torque setting tool or a two part mating clearance not meeting a set value.
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| CN114881527A (en) * | 2022-06-06 | 2022-08-09 | 安徽大学江淮学院 | Online visual intelligent management system that traces back of car intelligence equipment |
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