CN116662213B - Off-line electric inspection system of motorcycle - Google Patents

Abstract

The application provides a down-line electric inspection system of a motorcycle, which comprises: the system comprises a character set generation module, a storage module, scanning equipment, an analysis module and a offline electric detection module, wherein the character set generation module is used for generating an electric detection character set which is bound with a motorcycle; the storage module stores a offline electric detection program; the scanning equipment is used for scanning the electric detection character set of any motorcycle; the analysis module receives and analyzes the electric detection character set to obtain a plurality of electric detection characters, and corresponding characteristic values are obtained according to each electric detection character; the off-line electric detection module receives the characteristic value sent by the analysis module, invokes a corresponding off-line electric detection program according to the characteristic value to generate electric detection configuration information, and configures the electric detection configuration information to a controller of the motorcycle. According to the off-line electric inspection system provided by the embodiment of the application, EOL electric inspection software does not need to be customized and developed for each model of vehicle, so that the development period of the motorcycle can be shortened, and the development cost of the motorcycle can be reduced.

Description

Off-line electric inspection system of motorcycle

Technical Field

The application relates to the technical field of motorcycles, in particular to a down-line electric detection system of a motorcycle.

Background

When the motorcycle is off-line, it is generally necessary to perform EOL (End of Line Testing Tool, off-line detection) electric inspection and functional test on the motorcycle. The EOL electric inspection is used for configuring products before the motorcycle is off line and comprises intelligent key matching, uploading information of each controller of the motorcycle, writing in network configuration words and functional configuration words, reading fault codes and the like. The functional test is mainly aimed at the high-frequency fault parts in the market after the vehicle is off line, and comprises the following contents: and testing a three-electric system (a battery, a motor and an electric control) of the new energy vehicle, testing a power system of the fuel vehicle and testing an intelligent electrical system.

However, in the related art, the EOL electric inspection software needs to be customized and developed according to the specific requirements of a certain motorcycle type, and the EOL off-line inspection device can only perform electric inspection on the certain motorcycle type and cannot be suitable for all motorcycle types. Similarly, the function test device also needs to customize and develop function test software according to the specific requirements of motorcycle types, and cannot be applied to all the motorcycle types.

With the increasing types of the motor vehicles, the electric appliance configuration difference of different motor vehicles is larger, the vehicle type updating frequency is faster, and the vehicle types requiring EOL electric inspection and functional test are increased. For any motorcycle type, the EOL electric inspection software and the functional test software are required to be matched and customized for development, so that the development period of the motorcycle is prolonged, the cost is increased, and unnecessary resource waste is caused.

Disclosure of Invention

The application aims to provide a technical scheme for solving the problems of development cycle extension and cost improvement of a motorcycle and unnecessary resource waste caused by matched custom development of EOL electric inspection software and functional test software for any motorcycle type in the related technology.

Based on the above problems, the present application provides a down-line electric inspection system for a motorcycle, for configuring a controller of the motorcycle, the down-line electric inspection system comprising: the device comprises a character set generation module, a storage module, a scanning device, an analysis module and a offline electric detection module.

The character set generation module is used for generating an electric detection character set according to a production bill of materials of the motorcycle, wherein the production bill of materials of the motorcycle comprises a characteristic value of any controller on the motorcycle, the character set generation module generates electric detection characters according to the characteristic value, and generates electric detection character sets according to the electric detection characters, and the electric detection character sets are bound with the motorcycle; the storage module stores a offline electric detection program of at least part of the controller on the motorcycle, and the offline electric detection program can be searched according to the characteristic value; the scanning equipment is used for scanning the electric detection character set of any motorcycle so as to acquire the electric detection character set; the analysis module is in communication connection with the scanning equipment, receives the electric detection character set, analyzes the electric detection character set to obtain a plurality of electric detection characters, and obtains a corresponding characteristic value according to each electric detection character; the off-line electric detection module is in communication connection with the analysis module, receives the characteristic value sent by the analysis module, invokes a corresponding off-line electric detection program from the storage module according to the characteristic value to generate electric detection configuration information, and configures the electric detection configuration information to a controller of the motorcycle.

Further, the production bill of materials of the motorcycle further comprises an identifier of any controller on the motorcycle, and the identifier of any controller corresponds to the characteristic value of at least one controller;

the character set generation module sorts the electric detection characters according to a preset rule to obtain an electric detection character sequence, and encodes the electric detection character sequence to generate an electric detection character set, wherein the preset rule prescribes the identification of a controller corresponding to any electric detection character position in the electric detection character sequence.

Further, the analysis module analyzes the scanning result to obtain a character sequence according to the electric detection;

the analysis module obtains the identification of the controller according to the position of the electric detection character in the electric detection character sequence and by combining with a preset rule;

the analysis module is used for obtaining at least one characteristic value corresponding to the identifier according to the identifier of the controller and selecting the corresponding characteristic value according to the content of the electric detection character.

Further, the character set generation module is further used for generating first-class characters according to product codes representing motorcycle types and generating second-class characters according to code codes which are required to be met by the motorcycle based on preset rules;

the character set generation module is used for splicing the first type of characters, the second type of characters and the electric detection characters generated according to the characteristic values to generate an electric detection character sequence, and encoding the electric detection character sequence to obtain an electric detection character set.

Further, the production bill of materials also comprises an identifier of a part on the motorcycle, and the controller is used for controlling the part to realize the function of the part;

the character set generation module is used for generating third types of characters according to a production bill of materials of the motorcycle, wherein any third type of character represents a part, splicing the first type of characters, the second type of characters, the third type of characters and the electric detection characters to generate an electric detection character sequence, and encoding the electric detection character sequence to obtain an electric detection character set;

the analysis module analyzes the electric detection character set to obtain a third type of characters, and obtains the corresponding identification of the part according to the third type of characters;

the off-line radio detection module also modifies the configuration parameters of the off-line radio detection program of a certain controller based on the identification of the part, wherein the controller is used for controlling the part, and the configuration parameters of the off-line radio detection program are modified based on the identification of the part so as to realize the control of the part by the controller.

Furthermore, the storage module also stores a plurality of functional test basic programs aiming at different test contents, and test case configuration and test case parameters of motorcycles of different types;

the scanning equipment also scans the whole car label of the motorcycle, wherein the whole car label comprises an identity identification code of the motorcycle;

the analysis module also analyzes the whole vehicle label of the motorcycle to obtain the identity identification code of the motorcycle, and obtains the motorcycle type of the motorcycle according to the identity identification code of the motorcycle;

the off-line electric inspection system further comprises a function test module, the function test module is in communication connection with the analysis module, the function test module receives the vehicle type sent by the analysis module, test case configuration and test case parameters of the corresponding vehicle type are selected, the function test module selects a corresponding function test basic program based on the test case configuration, parameter modification is carried out on the selected function test basic program based on the test case parameters to generate a function test program of the motorcycle, and the function test module carries out function test on the motorcycle based on the function test program.

Further, the function test module is also used for comparing the test case configuration of motorcycles of different types;

when the test case configurations of any two motorcycles of different types are the same, the function test module firstly generates a function test program of the motorcycle of the first type to obtain a first function test program, then modifies the first function test program based on the test case parameters of the motorcycle of the second type to obtain a second function test program, and takes the second function test program as the function test program of the motorcycle of the second type.

Further, the functional test module and the off-line electrical inspection module share a hardware interface and a driving module.

Further, the storage module is also used for receiving and storing electric detection data information fed back by the motorcycle after the electric detection configuration information is configured to the controller of the motorcycle;

the function test module is also used for generating a function test case to verify the electric detection data information;

the off-line electric inspection system of the motorcycle further comprises an alarm module, and the alarm module alarms when the functional test module fails to check the electric inspection data information.

Further, the storage module is a server and comprises a communication interface, and the storage module can be in communication connection with the after-sales diagnosis system through the communication interface;

the storage module can respond to the request of the after-sales diagnosis system and synchronize the electric inspection data information of the motorcycle to the after-sales diagnosis system so that the after-sales diagnosis system can configure the motorcycle according to the electric inspection data information.

In summary, the application provides a offline electric inspection system, an electric inspection character set is generated through a character set generation module, and the electric inspection character set is bound with a motorcycle, when a controller of the motorcycle needs to be configured, the electric inspection character set can be scanned and analyzed to obtain a plurality of electric inspection characters, then a characteristic value corresponding to each electric inspection character is obtained according to the electric inspection characters, and a corresponding offline electric inspection program can be called from a storage module according to the characteristic value by the offline electric inspection module to generate electric inspection configuration information.

Drawings

FIG. 1 is a schematic diagram of a down-line electrical inspection system according to an embodiment of the present application;

FIG. 2 is a schematic diagram of an electrical test character sequence according to an embodiment of the present application;

FIG. 3 is a schematic diagram of an electrical test character sequence according to another embodiment of the present application;

fig. 4 is a schematic diagram of a configuration of a controller offline detection flow provided in an embodiment of the present application;

fig. 5 is a schematic diagram of a vehicle type management interface according to an embodiment of the present application;

FIG. 6 is a schematic diagram of a configuration interface for a downlink electrical inspection according to an embodiment of the present application;

FIG. 7 is a schematic diagram of a down-line detection system according to another embodiment of the present application;

FIG. 8 is a schematic diagram of a functional test module and a down-line electrical test module according to an embodiment of the present application;

FIG. 9 is a schematic diagram of a functional test configuration interface according to an embodiment of the present application;

FIG. 10 is a schematic diagram of a memory module and an after-market diagnosis system according to an embodiment of the present application.

Detailed Description

The present application will be described in detail below with reference to the specific embodiments shown in the drawings, but these embodiments are not limited to the present application, and structural, method, or functional modifications made by those skilled in the art based on these embodiments are included in the scope of the present application.

As shown in fig. 1, an embodiment of the present application provides a down-line electric inspection system 100 of a motorcycle 200, the down-line electric inspection system 100 including: the character set generation module 11, the storage module 12, the scanning device 13, the analysis module 14 and the off-line electric detection module 15.

Wherein the character set generating module 11 is configured to generate an electric inspection character set according to a production bill of materials of the motorcycle 200. The production bill of materials of the motorcycle 200 includes a characteristic value of any one of the controllers on the motorcycle 200, and the character set generating module 11 generates electric check characters according to the characteristic value, and generates electric check character sets according to the electric check characters, the electric check character sets being bound with the motorcycle 200.

The memory module 12 stores a down-line detection program of at least part of the controller on the motorcycle 200, and can search the down-line detection program according to the feature value.

The scanning device 13 is used for scanning the electric inspection character set of any motorcycle 200 to acquire the electric inspection character set.

The analysis module 14 is in communication connection with the scanning device 13, receives the electric detection character set, analyzes the electric detection character set to obtain a plurality of electric detection characters, and obtains a corresponding characteristic value according to each electric detection character.

The offline electric detection module 15 is in communication connection with the analysis module 14, receives the characteristic value sent by the analysis module 14, invokes a corresponding offline electric detection program from the storage module 12 according to the characteristic value to generate electric detection configuration information, and configures the electric detection configuration information to the controller of the motorcycle 200.

Specifically, the application records the product model of the motorcycle 200 and the controller on the motorcycle 200 in the product bill, and the controller on the motorcycle 200 is represented by the controller mark. The production bill of materials also records the characteristic value of each controller, and the characteristic value is used for representing the offline electric inspection program of the controller required configuration.

The character set generating module 11 may obtain the feature values corresponding to the controllers existing on the motorcycle 200 of any vehicle type through the production bill of materials, generate electric check characters according to the respective feature values, encode the electric check characters to obtain an electric check character set, and bind the electric check character set with the motorcycle 200.

As an alternative implementation mode, the electric detection characters can be set according to actual demands, and can have various expression forms such as numbers, national characters, punctuation marks, graphic symbols and the like. In the embodiment of the application, the electric detection character set expression form is a two-dimensional code, and the electric detection character expression form is a number or letter.

When the controller on the motorcycle 200 needs to be configured, the electric detection character set can be scanned through the scanning device 13, the scanning result is analyzed through the analysis module 14 to obtain a plurality of electric detection characters, then the characteristic value corresponding to each electric detection character is obtained according to the electric detection characters, the off-line electric detection module 15 can call the corresponding off-line electric detection program from the storage module 12 according to the characteristic value to generate electric detection configuration information, and according to the off-line electric detection system 100 provided by the embodiment of the application, EOL electric detection software does not need to be customized and developed for each motorcycle type, so that the development period of the motorcycle 200 can be shortened, and the development cost of the motorcycle 200 can be reduced.

As shown in fig. 2, as an alternative implementation manner, in the embodiment of the present application, the character set generating module 11 sorts the electric check characters according to a preset rule to obtain an electric check character sequence, and the character set generating module 11 encodes the electric check character sequence to generate an electric check character set, where the preset rule specifies an identifier of a controller corresponding to a position of any electric check character in the electric check character sequence.

Specifically, each character position in the electronic test character sequence may correspond to a controller identifier, such that the complete electronic test character sequence may encompass all controllers on the motorcycle 200 of one or more vehicle models. As an alternative implementation, in an embodiment of the present application, the content of the electrical check characters on each sequential bit is 0 or 1 or other numbers and letters. The content of the electric detection character being 0 indicates that the motorcycle model 200 has no controller; the content of the electric detection character is 1, which indicates that the controller is configured; the content of the electric checking character is a number or letter except 0 and 1, which indicates that the controller is configured, and a plurality of specifications are selected, and the off-line electric checking program adapted to each specification of the controller can be distinguished by a characteristic value. As shown in Table 1, the relationship of the controller identification of the present application to the characteristic value and the relationship of the characteristic value to the content of the electrical test character are shown by way of example.

TABLE 1

As an alternative implementation manner, the analysis module 14 analyzes the scanning result to obtain the electric detection character sequence, and the analysis module 14 may obtain the identifier of the controller according to the position of the electric detection character in the electric detection character sequence and in combination with a preset rule. The parsing module 14 also obtains at least one feature value corresponding to the identifier according to the identifier of the controller, and selects the corresponding feature value according to the content of the electric detection character.

Specifically, taking table 1 as an example, the analysis module 14 analyzes the scanning result to obtain an electric detection character sequence, if the content of the 25 th electric detection character in the electric detection character sequence is "0", it may be determined that the EPS controller is not installed on the motorcycle 200, and if the content of the 27 th electric detection character in the electric detection character sequence is "1", it indicates that the multimedia information interaction system controller is present on the motorcycle 200, and according to the feature value "MI00", the offline electric detection module 15 may call the corresponding offline electric detection program from the storage module 12.

By the above mode, the off-line electric inspection module 15 can automatically call the off-line electric inspection program required by the controller associated with the electric inspection test, so that electric inspection configuration information can be automatically generated for the motorcycle 200 of any vehicle type, and EOL electric inspection software can be not required to be customized and developed for each vehicle type, thereby shortening the development period of the motorcycle 200 and reducing the development cost of the motorcycle 200.

As shown in fig. 2, as an alternative implementation manner, the character set generating module 11 further generates the first type of characters according to the product code number representing the motorcycle type of the motorcycle 200 based on the preset rule, and generates the second type of characters according to the code number of the rule to be met by the motorcycle 200. The regulations to be met by the motorcycle 200 may be different according to the country and region to which the motorcycle 200 is expected to be sold, and different regulations may be indicated by the usage codes.

The character set generating module 11 further splices the first type of characters, the second type of characters and the electric detection characters generated according to the characteristic values to generate an electric detection character sequence, and encodes the electric detection character sequence to obtain an electric detection character set.

The first type of characters may be numbers or letters, and the first type of characters may also be represented as a combination of numbers and letters. Similarly, the second type of character may also be a number or letter, and the second type of character may also appear as a combination of numbers and letters. In the embodiment of the application, the first type characters, the second type characters and the electric detection characters are spliced according to a certain sequence to generate an electric detection character sequence. For example, bits 1 to 4 of the electric check character sequence are the first type of characters, bit 5 is the second type of characters, and the sixth and subsequent bits each represent an electric check character.

As an alternative implementation, the storage module 12 may store the radio detection program in a partition, and the corresponding storage areas may be found according to the second type of characters, where the radio detection program stored in each storage area needs to meet the regulations corresponding to the second type of characters. When the down-line detection module 15 needs to call the down-line detection program, the down-line detection program may be called from the corresponding storage area according to the second type character.

The production bill of materials also includes identification of the components on the motorcycle 200, and the controller is used to control the components to perform the functions of the components. As shown in fig. 3, as an alternative implementation manner, the character set generating module 11 further generates third type characters according to the production bill of materials of the motorcycle 200, any third type character represents a part, and the character set generating module further splices the first type characters, the second type characters, the third type characters and the electric check characters to generate an electric check character sequence, and encodes the electric check character sequence to obtain an electric check character set.

Similar to the electric check character sequence, the third type of characters can be arranged in sequence, so that each character position can represent a part, and the model of the part can be represented according to the content of the specific third type of characters on the character position.

As shown in Table 2, the relationship of the component part identifier of the present application to the character position of the third type character and the relationship of the character content of the third type character to the component part model are exemplarily shown.

TABLE 2

The parsing module 14 parses the electric detection character set to obtain a third type of character, and obtains the identification of the corresponding component according to the third type of character.

The controller may be associated with the component identifiers controlled by the controller in a preset rule. After the analysis module 14 analyzes the part identifier, the offline electric inspection module 15 may also modify a configuration parameter of an offline electric inspection program of a certain controller based on the identifier of the part, where the controller is used to control the part corresponding to the part identifier, and modify the configuration parameter of the offline electric inspection program based on the identifier of the part to implement the controller to control the part.

Fig. 4 is a schematic diagram schematically illustrating a controller offline detection flow configuration provided by an embodiment of the present application.

Taking BCM body controllers as an example in connection with tables 1 and 2, the types of lamp components that BCM body controllers can use to control are: when configuring BCM body controllers, turn lights, license lamps, backup lamps, front fog lamps, rear fog lamps, daytime running lights, low beam lights, high beam lights, position lights, etc., it is necessary to modify configuration parameters, i.e., parameters written to the functional configuration as shown in fig. 4, according to the installation conditions of the actual lamp components of the motorcycle 200. In the application, the electric detection character set is scanned by the scanning equipment 13, and the installation condition of the parts on the motorcycle 200 can be obtained after the analysis by the analysis module 14, so that the configuration parameters of the off-line electric detection program of each controller can be correspondingly modified automatically.

Fig. 5 is a schematic diagram schematically illustrating a vehicle type management interface provided by the radio inspection system 100 according to the embodiment of the present application. As shown in fig. 5, the down-line electric inspection system 100 may perform operations of displaying, adding, modifying, deleting, etc. electric inspection configuration information of different vehicle models. The manner of adding the electrical inspection configuration information of the motorcycle 200 of a certain vehicle type may be to automatically generate the electrical inspection configuration information by the off-line electrical inspection module 15 and then store the electrical inspection configuration information. The modification operation of the electric inspection configuration information may be performed manually, or may be performed automatically according to the comparison result after comparing the differences of the electric inspection character sequences by the off-line electric inspection module 15 in the manner described above.

Fig. 6 is a schematic diagram schematically illustrating a configuration interface of a downlink radio detection according to an embodiment of the present application. Editing the electric inspection configuration information for a certain vehicle type motorcycle 200 mainly includes: the method comprises the steps of configuration of a controller, configuration of a vehicle type offline detection flow, common diagnosis service modification of the controller offline detection flow configuration and diagnosis parameter modification. The vehicle type offline detection flow configuration refers to sequential configuration of each controller on the motorcycle 200, and the controller offline detection flow configuration refers to flow configuration of a pointer to a certain controller. Common diagnostic services include diagnostics for data transfer functions, diagnostics for fault code functions, diagnostics and diagnostics for communication management functions, etc.

As an alternative implementation, the storage module 12 also stores a plurality of functional test basic programs for different test contents, and test case configurations and test case parameters of motorcycles 200 of different vehicle types.

The test case configuration refers to a functional test item required to be performed by the motorcycle 200, and the functional test item may include: the test of the three-electric system of the new energy motorcycle 200 comprises the test of a battery, a motor and an electric control power system of the fuel motorcycle 200, the test of an intelligent electrical system and the like.

The scanning device 13 also scans the whole vehicle tag of the motorcycle 200, which includes the identification code of the motorcycle 200. The parsing module 14 also parses the entire car label of the motorcycle 200 to obtain the identification code of the motorcycle 200, and obtains the model of the motorcycle 200 according to the identification code of the motorcycle 200.

As shown in fig. 7, the radio test system 100 further includes a functional test module 16, where the functional test module 16 is communicatively connected to the parsing module 14, the functional test module 16 receives the vehicle model sent by the parsing module 14, selects a test case configuration and a test case parameter of a corresponding vehicle model, the functional test module 16 selects a corresponding functional test basic program based on the test case configuration, and performs parameter modification on the selected functional test basic program based on the test case parameter to generate a functional test program of the motorcycle 200, and the functional test module 16 performs functional test on the motorcycle 200 based on the functional test program.

As shown in fig. 8, as an alternative implementation, the functional test module 16 and the down wire detection module 15 may share a hardware interface and a driving module.

According to the above description, the radio inspection system 100 provided in the embodiment of the present application further includes the functional test module 16, where the functional test module 16 may automatically generate the functional test program of the motorcycle 200, without customizing and developing the functional test software for each model of the motorcycle, so that the development period of the motorcycle 200 may be shortened, and the development cost of the motorcycle 200 may be reduced.

As shown in fig. 9, a schematic diagram of a functional test configuration interface provided by the embodiment of the present application is exemplarily shown, which includes functions of configuration of a vehicle type test case, modification of a case parameter, copying of a case flow, and the like. The test cases of the vehicle type are configured to select test cases for a certain vehicle type motorcycle 200. The case parameter modification is used for modifying parameters in preset conditions, test steps and expected results in the test case so as to enable the test case to adapt to parameters of a specific vehicle type. The case flow replication refers to performing parameter modification on test cases in a functional test program based on the functional test program of a motorcycle 200 of a certain vehicle type, so as to quickly generate the functional test program adapted to the motorcycle 200 of another vehicle type.

As an alternative implementation manner, the functional test module 16 is further configured to compare test case configurations of motorcycles 200 of different types, and when the test case configurations of motorcycles 200 of any two different types are the same, the functional test module 16 first generates a functional test program of a motorcycle 200 of a first type to obtain a first functional test program, then modifies the first functional test program based on test case parameters of a motorcycle 200 of a second type to obtain a second functional test program, and uses the second functional test program as the functional test program of the motorcycle 200 of the second type.

For example, the test case configurations of the motorcycle type a 200 and the motorcycle type B200 are the same, and the difference is that the case parameters are different, so that the function test program of the motorcycle type a 200 can be duplicated based on the function test program of the motorcycle type a 200, and only the function test program of the motorcycle type B200 is needed to modify the test case parameters. According to the above description, the offline electric inspection system 100 provided by the embodiment of the application can realize the duplication of the use case flow among motorcycles 200 of different types, and in this way, the functional test program of the motorcycles 200 of different types can be quickly constructed, so that the development period of the motorcycles 200 can be shortened, and the development cost of the motorcycles 200 can be reduced.

As an alternative implementation, the storage module 12 is further configured to receive and store electrical test data information, where after the electrical test configuration information is configured to the controller of the motorcycle 200, the motorcycle 200 feeds back to the off-line electrical test system 100.

The functional test module 16 is further configured to generate functional test cases to verify the electrical test data information.

As an alternative implementation, the off-line electronic test system 100 of the motorcycle 200 further includes an alarm module that alarms when the functional test module 16 fails to verify the electronic test data information.

According to the above description, the off-line electrical inspection system 100 provided by the embodiment of the present application can verify the function of the controller again by the function test module 16 after the configuration of the controller of the motorcycle 200 is completed by the off-line electrical inspection module 15, so as to ensure the safety of the motorcycle 200.

As shown in FIG. 10, as an alternative implementation, the storage module 12 is a server, the storage module 12 includes a communication interface, and the storage module 12 may be communicatively connected to the after-market diagnostic system 300 through the communication interface.

The memory module 12 may synchronize the electronic test data information of the motorcycle 200 to the after-market diagnostic system 300 in response to a request from the after-market diagnostic system 300 to enable the after-market diagnostic system 300 to configure the motorcycle 200 based on the electronic test data information.

In particular, the electrical test data information in the memory module 12 may be synchronized to the after-market diagnostic system 300. When the controller is replaced by the vehicle distributor, the after-sales diagnostic instrument automatically acquires the electric inspection data information from the after-sales diagnostic instrument system, further can acquire the electric inspection configuration information of the replaced controller, and can write the electric inspection configuration information into the after-sales vehicle controller through the after-sales diagnostic instrument so as to realize synchronous updating of the configuration information of the after-sales vehicle and the production off-line vehicle.

As an alternative implementation, the electrical test data information may be a PIN code fed back after the electrical test configuration information is configured to the controller of the motorcycle 200. Taking key matching as an example, the radio inspection system 100 receives a PIN code for the key matching function of EOL fed back by the controller, and the PIN code may be stored in the storage module 12. The storage module 12 synchronizes the PIN code information of the motorcycle 200 to the after-market diagnostic system 300, and the after-market diagnostic apparatus can automatically acquire the PIN code from the after-market diagnostic system 300 for automatic key matching using the after-market diagnostic apparatus.

According to the above description, the offline electric inspection system 100 provided by the embodiment of the application can be in data communication with the after-sales diagnostic system 300, so that the after-sales diagnostic system 300 can automatically obtain the electric inspection configuration information of the controller, and the configuration of the after-sales replacement controller is synchronized with the configuration of the controller on the production line.

The above disclosure is illustrative of the preferred embodiments of the present application, but it should not be construed as limiting the scope of the application as will be understood by those skilled in the art: changes, modifications, substitutions, combinations, and simplifications may be made without departing from the spirit and scope of the application and the appended claims, and equivalents may be substituted and still fall within the scope of the application.

Claims (8)

1. A system for off-line electrical inspection of a motorcycle for configuring a controller of the motorcycle, the system comprising:

the character set generation module is used for generating an electric detection character set according to a production bill of materials of the motorcycle, wherein the production bill of materials of the motorcycle comprises a characteristic value of any controller on the motorcycle and an identifier of a part on the motorcycle, the controller is used for controlling the part to realize the function of the part, the character set generation module is used for generating an electric detection character according to the characteristic value, the character set generation module is also used for generating a first type of character according to a product code number representing the motorcycle type and a second type of character according to a rule code number required to be met by the motorcycle, generating a third type of character according to the production bill of materials of the motorcycle, any one of the third type of characters represents the part, and splicing the first type of character, the second type of character, the third type of character and the electric detection character to generate an electric detection character sequence, and carrying out coding and binding on the electric detection character sequence to obtain the electric detection character set and the electric detection character set;

the storage module is used for storing the offline electric detection programs of at least part of the controllers on the motorcycle in a partitioned mode, corresponding storage areas can be found according to the second type characters, the offline electric detection programs stored in each storage area accord with regulations corresponding to the second type characters, and the offline electric detection programs can be found according to the characteristic values;

the scanning device is used for scanning the electric detection character set of any motorcycle so as to acquire the electric detection character set;

the analysis module is in communication connection with the scanning equipment, receives the electric detection character set, analyzes the electric detection character set to obtain a plurality of electric detection characters, the first type characters, the second type characters and the third type characters, obtains the corresponding characteristic value according to each electric detection character, and obtains the identification of the part according to the third type characters;

the off-line electric detection module is in communication connection with the analysis module, receives the characteristic value sent by the analysis module, invokes a corresponding off-line electric detection program from a storage area corresponding to the storage module according to the second type character and the characteristic value to generate electric detection configuration information, and configures the electric detection configuration information to a controller of the motorcycle;

the off-line radio inspection module also modifies a configuration parameter of the off-line radio inspection program of a certain controller based on the identification of the part, wherein the controller is used for controlling the part, and modifies the configuration parameter of the off-line radio inspection program based on the identification of the part to realize that the controller controls the part.

2. The motorcycle down-line electric inspection system according to claim 1, characterized in that,

the production bill of materials of the motorcycle further comprises an identifier of any controller on the motorcycle, wherein the identifier of any controller corresponds to a characteristic value of at least one controller;

the character set generation module orders the electric detection characters according to a preset rule to obtain an electric detection character sequence, and encodes the electric detection character sequence to generate the electric detection character set, wherein the preset rule prescribes the identification of the controller corresponding to any electric detection character position in the electric detection character sequence.

3. The motorcycle down-line electric inspection system according to claim 2, characterized in that,

the analysis module analyzes the scanning result to obtain the electric detection character sequence;

the analysis module obtains the identification of the controller according to the position of the electric detection character in the electric detection character sequence and the preset rule;

the analysis module obtains at least one characteristic value corresponding to the identification according to the identification of the controller, and selects the corresponding characteristic value according to the content of the electric detection character.

4. The motorcycle down-line electric inspection system according to claim 1, characterized in that,

the storage module is also used for storing a plurality of functional test basic programs aiming at different test contents, and test case configuration and test case parameters of the motorcycles of different vehicle types;

the scanning equipment also scans a whole car label of the motorcycle, wherein the whole car label comprises an identity identification code of the motorcycle;

the analysis module is used for analyzing the whole vehicle label of the motorcycle to obtain the identity identification code of the motorcycle and obtaining the motorcycle type of the motorcycle according to the identity identification code of the motorcycle;

the function test module is in communication connection with the analysis module, receives the vehicle model sent by the analysis module, selects test case configuration and test case parameters corresponding to the vehicle model, selects corresponding function test basic programs based on the test case configuration, and carries out parameter modification on the selected function test basic programs based on the test case parameters to generate a function test program of the motorcycle, and the function test module carries out function test on the motorcycle based on the function test program.

5. A motorcycle down-line electrical inspection system according to claim 4, wherein,

the function test module is also used for comparing the test case configuration of the motorcycles of different vehicle types;

when the test case configurations of the motorcycles of any two different types are the same, the function test module firstly generates the function test program of the motorcycle of a first type to obtain a first function test program, then modifies the first function test program based on the test case parameters of the motorcycle of a second type to obtain a second function test program, and takes the second function test program as the function test program of the motorcycle of the second type.

6. A motorcycle down-line electrical inspection system according to claim 4, wherein,

the function test module and the off-line electric detection module share a hardware interface and a driving module.

7. A motorcycle down-line electrical inspection system according to claim 4, wherein,

the storage module is also used for receiving and storing electric detection data information fed back by the motorcycle after the electric detection configuration information is configured to a controller of the motorcycle;

the function test module is also used for generating a function test case to verify the electric detection data information;

the off-line electric inspection system of the motorcycle further comprises an alarm module, and when the function test module fails to check the electric inspection data information, the alarm module alarms.

8. The motorcycle down-line electric inspection system according to claim 7, characterized in that,

the storage module is a server and comprises a communication interface, and the storage module can be in communication connection with an after-sales diagnosis system through the communication interface;

the storage module can respond to the request of the after-sales diagnosis system and synchronize the electric inspection data information of the motorcycle to the after-sales diagnosis system so that the after-sales diagnosis system can configure the motorcycle according to the electric inspection data information.