CN105786886B - Vehicle maintenance inventory system - Google Patents
Vehicle maintenance inventory system Download PDFInfo
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Abstract
The invention provides a vehicle maintenance directory system, which comprises a database, an association module, an interactive interface, an analysis unit and a matching module, wherein the database is used for storing a vehicle maintenance directory; the database is at least used for storing vehicle related data, part and map data and manufacturer data; the association module is used for establishing association relations among the vehicle related data, the part and map matching data and the manufacturer data; the interactive interface comprises a maintenance interface and a user interface, the maintenance interface is used for configuring data of the database, and the user interface is used for interaction between a user and the vehicle maintenance directory system for obtaining required parts; the analysis unit is used for analyzing the vehicle identification code input by the user through the user interface; and the matching module matches the vehicle type year, brand and vehicle type information contained in the analyzed vehicle identification code with the data in the database with the established association relationship, so as to obtain the required parts. The vehicle maintenance directory system can search the matched spare and accessory parts in the sub-database only by inputting the vehicle VIN code by a user.
Description
Technical Field
The present invention relates to automotive maintenance technology, and more particularly, to a vehicle repair directory system.
Background
In the existing accessory catalog product, a user finds out maintenance parts from brands, vehicle types, annual money, part assembly groups, subsystem diagrams and specific diagram numbers in a mode of entering the catalog index layer by layer. Due to the complexity of the attribute of the maintenance part, the existing screening of the vehicle frame number in the market is only limited to the maintenance part, and the scheme design and the logic algorithm have defects and cannot be accurately positioned.
Along with the increasing of automobile market reserves, the automobile model year and the automobile model configuration stocks are more and more complex, a plurality of parts are usually arranged under the same figure number, and a user needs to further combine the automobile configuration for distinguishing after selecting to enter layer by layer; because of the complex engineering logic involved in vehicle configuration, users often cannot find the correct repair parts. For after-sale maintenance, accurate maintenance parts are difficult to locate, so that parts ordering errors occur in 4S shops or other customers, the maintenance cost is increased, the maintenance time is prolonged, and the customer satisfaction is directly reduced.
Disclosure of Invention
Accordingly, the present invention provides a vehicle repair catalog system for allowing a user to accurately find a desired part using a vehicle identification code. The vehicle maintenance directory system comprises a database, an association module, an interactive interface, an analysis unit and a matching module. The database is at least used for storing vehicle related data, part and map matching data and manufacturer data, and the database comprises a first sub-database and is used for storing vehicle related data, wherein the vehicle related data comprises brand, model year, model series and vehicle configuration data; the second sub-library is used for storing part and map matching data, and the part and map matching data comprise part groups, part self data and part map matching; and a third sub-library for storing the manufacturer data, the manufacturer data including a vehicle manufacturer identification code, a vehicle identification code year table. The association module is used for establishing association among the vehicle related data, the part and map matching data and the manufacturer data, and comprises a first association unit which is used for establishing association among brands, vehicle types, vehicle series, vehicle type years and vehicle configuration data in the first sub-library to form a first association data set, so that any one of the brands, the vehicle types, the vehicle series, the vehicle type years and the vehicle configuration data can be indexed to other corresponding data; the second association unit is used for establishing association relations among the part groups, the part data and the part matching diagrams in the second sub-library to form a second association data group, so that any one of the part groups, the part data and the part matching diagrams can index other data corresponding to the part groups, the part data and the part matching diagrams; and the third association unit is used for constructing the association relationship between the first association data set and the second association data set so that one group of data in the first association data set and one group of data in the corresponding second association data set are associated with each other. The interactive interface comprises a maintenance interface and a user interface, wherein the maintenance interface is used for configuring data of the database, and the user interface is used for interaction between a user and the vehicle repair catalogue system for obtaining required parts. The analysis unit is used for analyzing the vehicle identification code input by the user through the user interface. And the matching module matches the vehicle model year, brand and vehicle model information contained in the analyzed vehicle identification code with the data in the database with the established association relationship, so as to obtain the required parts.
According to an example of the present invention, the matching module may further include a first matching unit that compares the vehicle model year in the parsed indication information with data in the first sub-library to obtain associated data corresponding to the vehicle model year from the first associated data group, and accordingly obtain associated data from the second associated data group; and a second matching unit which matches the brand and the vehicle type and the vehicle series in the analyzed indication information with the associated data processed by the first matching unit, thereby positioning the brand, the vehicle type year and the vehicle series corresponding to the vehicle identification code from the first associated data group, and further obtaining corresponding part grouping, part self data and part matching images through the association relationship between the first associated data group and the second associated data group.
According to an example of the present invention, the user interface displays the matching result of the second matching unit so that the user selects a desired group from the part groups. According to this example, the matching unit further includes a third matching unit configured to select a corresponding part from the data of the part itself according to a group input by a user, and obtain a corresponding part map.
Drawings
FIG. 1 is a schematic view of a vehicle service inventory system according to an example of the invention.
Fig. 2 is a schematic structural diagram of a matching module.
Fig. 3 is a schematic illustration of an interactive interface showing data presented after a user enters a VIN code through the user interface and the VIN code is parsed by the decoding module 16 of the vehicle service directory system.
Fig. 4 and 5 are schematic illustrations of an interactive interface.
Detailed Description
Illustrative examples of the invention are now described with reference to the drawings, wherein like reference numerals represent like elements. The following examples are presented to provide a thorough understanding of the present invention and are intended to be illustrative and not limiting. The drawings of the elements, components, modules, devices and apparatus bodies in the figures are only schematic representations of the existence of the elements, components, modules, devices and apparatus bodies and the relative relationship between the elements, components, modules, devices and apparatus bodies, but are not intended to limit the specific shapes of the elements, components, modules, devices and apparatus bodies.
FIG. 1 is a schematic view of a vehicle service inventory system according to an example of the invention. As shown, the vehicle repair catalog system includes a database 10, an association module 12, an interactive interface 14, a parsing unit 16, and a matching module 18; the database 10 includes a first sub-library 100, a second sub-library 102 and a third sub-library 104, and the association module 12 includes a first association unit 120, a second association unit 122 and a third association unit 124.
The database 10 is used at least for storing vehicle-related data, part and map data, manufacturer data. In practice, the database 10 may be used to store more data and is not limited to those listed herein. The first sub-library 100 stores vehicle related data including, for example, but not limited to, brand, model year, model family, and vehicle configuration data. The second sub-library 102 stores part and map data including, but not limited to, part groupings, part self data, part maps. According to an example of the invention, the parts are grouped, for example, according to system assemblies or functional blocks of the vehicle. The third sub-library 104 stores manufacturer data including, for example, but not limited to, vehicle manufacturer identification codes, vehicle identification code year tables. The data in the database 10 may be entered and maintained through a maintenance interface, wherein the data may be sourced from a whole car plant manufacturing system, a sales system, an engineering system, and a logistics system.
The association module 12 establishes an association between the vehicle-related data, the part and map data, and the manufacturer data so that all the related data for the same vehicle have an association with each other so that from one data can be indexed to the other data according to the association.
The first association unit 120 establishes an association relationship between the brand, the vehicle type and the vehicle series, the vehicle type year and the vehicle configuration data in the first sub-library to form a first association data set, so that any one of the brand, the vehicle type and the vehicle series, the vehicle type year and the vehicle configuration data can be indexed to the other corresponding data. In other words, a brand, a vehicle type vehicle series corresponding to the brand, a vehicle type year of the vehicle type vehicle series corresponding to the brand, and vehicle configuration data of the vehicle type vehicle series of the brand for the vehicle type year are associated with each other. For example, the tiles in the first sub-library 100 include A, B and C. The vehicle type train of brand A comprises A11 and A12, and the years comprise 2012, 2013 and 2014; the model train of brand B includes B11, the year includes years 2010 to 2014; the model train of brand C comprises C11, C12 and C13, and the year is from 2009 to 2014; the vehicle configuration data in the first sub-library 100 includes vehicle configuration data for a11, a12, B11, C11, C12, and C13, respectively. The first associating unit 120 associates the brand a in the first sub-library 100 with a model series of a11, a model series of a12, a model series of B11, a model series of C11, a model series of C12 and a model series of C13, respectively; in associating the already associated a brand with the a11 vehicle type train with the years 2012, 2013, and 2014 corresponding to the a11 vehicle type train, and further associating the data associated with the years respectively with the vehicle type configuration data of the a11 vehicle type train of the respective year, that is, the year data of the 2012 years of the already associated a brand, a11 vehicle type train, and a11 vehicle type train is further associated with the vehicle configuration data of the a11 vehicle type train for the 2012, the year data of the associated a brand, a11 vehicle type train, and a11 vehicle type train is further associated with the vehicle configuration data of the 2013 a11 vehicle type train, and the year data of the associated a brand, a11 vehicle type train, and a11 vehicle type train is further associated with the vehicle configuration data of the 2014 for the 2013 a11 vehicle type train. Thus, the association relationship among the brand a, the vehicle series of the a11 vehicle type, the year of the vehicle series of the a11 vehicle type, and the vehicle configuration data corresponding to the vehicle series of the a11 vehicle type of the year is established. The establishment of the association relationship between the brand B and the brand C and the vehicle series of the corresponding vehicle type is the same as the above-mentioned process, and will not be described again.
It should be noted that, the reference to establishing the association between the brand, the vehicle type year and the vehicle configuration data in the first sub-library refers to establishing the association between the data representing the brand, the data representing the vehicle type, the data representing the year and the data representing the vehicle configuration data.
In addition, the data with the established association relationship or the first association data group formed by establishing the association relationship is still stored in the first sub-library 100, and each data with the association relationship established by the first association unit 120 can be indexed from one of the data to other data associated therewith, compared with the data before establishing the association relationship.
The second association unit 122 establishes an association relationship among the part groups, the part data themselves, and the part matching diagrams in the second sub-library, and forms a second association data group, so that any one of the part groups, the part data themselves, and the part matching diagrams can index other data corresponding thereto. For example, m groups in the part grouping include a plurality of specific parts under the m groups, and each part has a corresponding part layout. According to an example of the present invention, m groups are respectively associated with one or more parts under m groups, and then associated maps of the one or more parts are associated, so that in the case of selecting a specific part under m groups, an index can be associated to the part map corresponding to the specific part. The data with the established association relationship or the second association data group formed by the established association relationship is still stored in the second sub-library 102, and each data with the association relationship established by the second association unit 122 can be indexed from one of the data with other data associated therewith, compared with the data before the establishment of the association relationship.
The third associating unit 124 is configured to construct an association relationship between the first associated data set and the second associated data set, so that a set of data in the first associated data set and a set of data in the corresponding second associated data set are associated with each other. Taking an example of the model a11 car of the brand a in 2012, the association data of the model a11 car series of the brand a in 2012 in the first association data set is associated with the part group of the model a11 car series of the brand a in 2012 in the second association data set, and the part self data and the part map data associated with the part group.
When a user needs to search for a part required by a certain vehicle, the user only needs to input a vehicle identification number (VIN code), which may also be referred to as a vehicle frame number, of the vehicle through a user interface in the interactive interface 14. Upon receiving the VIN code, the vehicle service directory system according to the example of the invention parses the VIN code by the parsing unit 14. The information of the vehicle type year, the brand and the vehicle type contained in the vehicle identification code can be obtained by analyzing the VIN code. Further, the matching module 16 matches the vehicle model year, brand, and vehicle model information included in the analyzed vehicle identification code with the data in the database having established the association relationship to obtain the required part.
According to an example of the present invention, the matching module 16 further includes a first matching unit 160, a second matching unit 162, and a third matching unit 164, as shown in fig. 2. The first matching unit 160 compares the model year in the parsed instruction information with the data in the first sub-library 100 to acquire associated data corresponding to the model year from the first associated data group, and accordingly, also acquires associated data from the second associated data group. The second matching unit 162 matches the brand and the vehicle type and the vehicle family in the analyzed indication information with the associated data processed by the first matching unit 160, thereby locating the brand, the vehicle type year and the vehicle type and the vehicle family corresponding to the vehicle identification code from the first associated data group, and further obtaining the corresponding part group, the part self data and the part matching drawing through the association relationship between the first associated data group and the second associated data group.
According to an example of the present invention, the user interface further displays the matching result of the second matching unit 162 so that the user selects a desired group from the part groups. According to this example, the third matching unit 164 is configured to select a corresponding part from the data of the part itself according to a grouping input by the user, and obtain a corresponding part layout.
Fig. 3 is an exemplary diagram illustrating data presented after a user enters a VIN code through a user interface and the VIN code is parsed by the decoding module 16 of the vehicle service directory system. It can be seen that information about the country, geographic region, manufacturer, vehicle type, body type, engine type, assembly plant, etc. of the vehicle is obtained from the VIN code, and is presented in the region 30 shown in fig. 3. The configuration data for the vehicle is then presented in area 32 of fig. 3.
According to the information obtained after the VIN code is resolved, the first matching unit 160 compares the vehicle model year (shown as a vehicle model year in fig. 3) 2013 obtained by the resolution with the data in the first sub-library 100, and the second matching unit 162 matches the brand and the vehicle model and the vehicle family (shown as a vehicle model in fig. 3) in the resolved indication information with the associated data processed by the first matching unit 160, thereby presenting the section 41 in fig. 4. Meanwhile, the second matching unit 162 further obtains the corresponding part grouping, the part self data and the part matching map according to the association relationship between the first associated data set and the second associated data set, and presents the area 42 part in fig. 4. Where a grouping 420 (identified as the main group in the figure) of the section 42 presents all the functional blocks of that vehicle model. The user can now select a function block to be repaired from among these function blocks, and the third matching unit 164 will select a part(s) corresponding to the selected function block from the data of the part itself according to the input and will present them in the sub item 422 portion. Still further, the content presented to the user includes more information, such as the name of the part (also referred to as an accessory), its number, and its engineering configuration mutual exclusion, for the user's reference, which also helps the user to implement a further level of screening. FIG. 5 is an exemplary screening interface, an example of one of the exemplary interactive interfaces according to the present invention.
According to the invention, the data related to a certain vehicle type are correlated with each other, so that a user can retrieve other correlated data from the database according to partial information indicated by the VIN code by the matching module under the condition of inputting the VIN code, and finally obtain the required part matching drawing, thereby being convenient and reliable.
Claims (4)
1. A vehicle service directory system, comprising:
a database for storing at least vehicle-related data, part and map data, manufacturer data, wherein the database is further configured to include:
the first sub-library is used for storing vehicle related data, and the vehicle related data comprises brands, vehicle types and years, vehicle types and vehicle series and vehicle configuration data;
the second sub-library is used for storing part and map matching data, and the part and map matching data comprise part groups, part self data and part maps; and
a third sub-repository for storing the manufacturer data, the manufacturer data including a vehicle manufacturer identification code and a vehicle identification code year table;
an association module for establishing an association between the vehicle-related data, the part and map data, and the manufacturer data, comprising:
the first association unit is used for establishing an association relationship among the brands, the vehicle types and the years of the vehicle types in the first sub-library and the vehicle configuration data to form a first association data set, so that any one of the brands, the vehicle types and the years of the vehicle types and the vehicle configuration data can be indexed to other corresponding data;
the second association unit is used for establishing association relations among the part groups, the part data and the part matching diagrams in the second sub-library to form a second association data group, so that any one of the part groups, the part data and the part matching diagrams can index other data corresponding to the part groups, the part data and the part matching diagrams;
a third association unit, configured to construct an association relationship between the first associated data set and the second associated data set such that a set of data in the first associated data set and a set of data in the corresponding second associated data set are associated with each other;
the interactive interface comprises a maintenance interface and a user interface, the maintenance interface is used for configuring data of the database, and the user interface is used for interaction between a user and the vehicle maintenance catalog system for obtaining required parts;
the analysis unit is used for analyzing the vehicle identification code input by the user through the user interface;
and the matching module is used for matching the vehicle type year, brand and vehicle type information contained in the analyzed vehicle identification code with the data in the database with the established association relationship so as to obtain the required parts.
2. The vehicle service directory system of claim 1, wherein the matching module comprises:
a first matching unit which compares the vehicle model year in the analyzed indication information with the data in the first sub-library to acquire the associated data corresponding to the vehicle model year from the first associated data group, and correspondingly acquires the associated data from the second associated data group;
and a second matching unit which matches the brand and the vehicle type and the vehicle series in the analyzed indication information with the associated data processed by the first matching unit, thereby positioning the brand, the vehicle type year and the vehicle series corresponding to the vehicle identification code from the first associated data group, and further obtaining corresponding part grouping, part self data and part matching images through the association relationship between the first associated data group and the second associated data group.
3. The vehicle service inventory system of claim 2, wherein the user interface displays the matching results of the second matching unit for a user to select a desired grouping from the part groupings.
4. The vehicle service inventory system of claim 3, wherein the matching module further comprises a third matching unit for selecting a corresponding part from the part's own data and obtaining a corresponding part map according to a grouping input by a user.
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