阅读说明：本技术 零部件分库方法及系统 (Parts warehouse-dividing method and system ) 是由 黄大昌 杨丽华 于 2021-08-30 设计创作，主要内容包括：本发明涉及车辆制造技术领域,公开一种零部件分库方法及系统。本发明通过获取待分库零部件对应的零部件类别,在零部件类别为车架车间零部件类别或车桥车间零部件类别时,按照预设分库规则对待分库零部件进行分库,在零部件类别为总装车间零部件类别时,获取待分库零部件对应的总成类别,在总成类别为大总成类别时,获取待分库零部件对应的仓库编号,并根据仓库编号对待分库零部件进行分库。本发明通过获取零部件的类别,然后根据零部件类别对不同的零部件进行分库,相较于现有的零部件分库由人工分库的方式,本发明上述方式能够实现对零部件的自动化分库,提高分库效率和准确率。(The invention relates to the technical field of vehicle manufacturing, and discloses a part warehouse-dividing method and system. According to the method, the parts and components to be sorted are sorted according to the preset sorting rule when the parts and components are classified into parts and components in a frame workshop or parts and components in an axle workshop, the assembly types corresponding to the parts and components to be sorted are obtained when the parts and components are classified into parts and components in a general assembly workshop, the warehouse numbers corresponding to the parts and components to be sorted are obtained when the assembly types are large assembly types, and the parts and components to be sorted are sorted according to the warehouse numbers. According to the invention, by acquiring the types of the parts and sorting different parts according to the types of the parts, compared with the existing mode that the parts are sorted manually, the mode provided by the invention can realize automatic sorting of the parts, and improves the sorting efficiency and accuracy.)

1. A part library dividing method is characterized by comprising the following steps:

acquiring part types corresponding to parts to be sorted;

when the part category is a frame workshop part category or an axle workshop part category, sorting the parts to be sorted according to a preset sorting rule;

when the part category is a final assembly workshop part category, acquiring an assembly category corresponding to the parts to be sorted;

and when the assembly type is a large assembly type, acquiring a warehouse number corresponding to the parts to be sorted, and sorting the parts to be sorted according to the warehouse number.

2. The parts warehousing method of claim 1, wherein when the parts category is a frame shop parts category or an axle shop parts category, the step of warehousing the parts to be warehoused according to a preset warehousing rule specifically comprises:

when the part category is a frame workshop part category, acquiring a frame workshop warehouse number corresponding to the frame workshop part category, and sorting the parts to be sorted according to the frame workshop warehouse number;

and when the component category is the axle workshop component category, acquiring an axle workshop warehouse number corresponding to the axle workshop component category, and sorting the components to be sorted according to the axle workshop warehouse number.

3. The parts sorting method according to claim 1, wherein the step of acquiring a warehouse number corresponding to the parts to be sorted when the assembly category is a large assembly category, and sorting the parts to be sorted according to the warehouse number specifically includes:

when the assembly type is a large assembly type, acquiring a large assembly identification corresponding to the parts to be sorted;

and determining the warehouse number corresponding to the parts to be sorted according to the large assembly identification, and sorting the parts to be sorted according to the warehouse number.

4. The parts sorting method according to claim 1, wherein after the step of obtaining the assembly classification corresponding to the parts to be sorted when the parts classification is a final assembly shop parts classification, the method further comprises:

when the assembly type is a medium and small-sized assembly type, acquiring a transfer diagram number corresponding to the part to be sorted;

performing data processing on the transit outcome picture number to obtain a target transit outcome picture number;

determining a pre-production class group corresponding to the parts to be sorted according to the target turning chart number;

and determining the warehouse numbers corresponding to the parts to be sorted according to the pre-manufactured pre-group, and sorting the parts to be sorted according to the warehouse numbers.

5. The parts sorting method according to claim 1, wherein after the step of obtaining the assembly classification corresponding to the parts to be sorted when the parts classification is a final assembly shop parts classification, the method further comprises:

when the assembly type corresponding to the parts to be sorted is not acquired, acquiring part function codes corresponding to the parts to be sorted;

and determining the warehouse number corresponding to the parts to be sorted according to the part function code, and sorting the parts to be sorted according to the warehouse number.

6. A parts inventory system, comprising:

the part category acquisition module is used for acquiring part categories corresponding to parts to be sorted;

the warehouse dividing module is used for dividing the parts to be subjected to warehouse division according to a preset warehouse dividing rule when the parts are classified into a frame workshop part or an axle workshop part;

the assembly type obtaining module is used for obtaining the assembly type corresponding to the parts to be sorted when the part type is a general assembly workshop part type;

and the warehouse dividing module is also used for acquiring the warehouse number corresponding to the parts to be subjected to warehouse division when the assembly type is a large assembly type, and dividing the parts to be subjected to warehouse division according to the warehouse number.

7. The parts warehousing system of claim 6, wherein the warehousing module is further configured to, when the parts category is a frame shop parts category, obtain a frame shop warehouse number corresponding to the frame shop parts category, and warehouse the parts to be warehoused according to the frame shop warehouse number; and when the component category is the axle workshop component category, acquiring an axle workshop warehouse number corresponding to the axle workshop component category, and sorting the components to be sorted according to the axle workshop warehouse number.

8. The parts warehouse system of claim 6, wherein the warehouse module is further configured to obtain a large assembly identifier corresponding to the parts to be warehoused when the assembly category is a large assembly category; and determining the warehouse number corresponding to the parts to be sorted according to the large assembly identification, and sorting the parts to be sorted according to the warehouse number.

9. The parts warehouse system of claim 6, wherein the warehouse module is further configured to obtain a diversion graph number corresponding to the parts to be warehoused when the assembly type is a medium and small assembly type; performing data processing on the transit outcome picture number to obtain a target transit outcome picture number; determining a pre-production class group corresponding to the parts to be sorted according to the target turning chart number; and determining the warehouse numbers corresponding to the parts to be sorted according to the pre-manufactured pre-group, and sorting the parts to be sorted according to the warehouse numbers.

10. The parts warehouse dividing system according to claim 6, wherein the warehouse dividing module is further configured to acquire the part function code corresponding to the parts to be warehoused when the assembly category corresponding to the parts to be warehoused is not acquired; and determining the warehouse number corresponding to the parts to be sorted according to the part function code, and sorting the parts to be sorted according to the warehouse number.

Technical Field

The invention relates to the technical field of vehicle manufacturing, in particular to a part warehouse-dividing method and system.

Background

At present, for various produced parts, parts need to be sorted, and part sorting refers to a process of putting parts with the same function, the same use unit, the same material and the like into corresponding warehouses according to a certain rule in production preparation. The traditional part sorting is usually manual sorting, but the manual sorting has low working efficiency and generally relies on memory and experience sorting, so that errors are easy to occur.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide a part warehouse separation system and a part warehouse separation system, and aims to solve the technical problem that automatic warehouse separation cannot be performed on parts in the prior art.

In order to achieve the above object, the present invention provides a parts library method, which comprises:

acquiring part types corresponding to parts to be sorted;

when the part category is a frame workshop part category or an axle workshop part category, sorting the parts to be sorted according to a preset sorting rule;

when the part category is a final assembly workshop part category, acquiring an assembly category corresponding to the parts to be sorted;

and when the assembly type is a large assembly type, acquiring a warehouse number corresponding to the parts to be sorted, and sorting the parts to be sorted according to the warehouse number.

Optionally, when the component category is a frame shop component category or an axle shop component category, the step of sorting the components to be sorted according to a preset sorting rule specifically includes:

when the part category is a frame workshop part category, acquiring a frame workshop warehouse number corresponding to the frame workshop part category, and sorting the parts to be sorted according to the frame workshop warehouse number;

and when the component category is the axle workshop component category, acquiring an axle workshop warehouse number corresponding to the axle workshop component category, and sorting the components to be sorted according to the axle workshop warehouse number.

Optionally, when the assembly type is a large assembly type, the step of obtaining a warehouse number corresponding to the component to be sorted and sorting the component to be sorted according to the warehouse number includes:

when the assembly type is a large assembly type, acquiring a large assembly identification corresponding to the parts to be sorted;

and determining the warehouse number corresponding to the parts to be sorted according to the large assembly identification, and sorting the parts to be sorted according to the warehouse number.

Optionally, after the step of obtaining the assembly type corresponding to the parts to be sorted when the parts type is a final assembly shop parts type, the method further includes:

when the assembly type is a medium and small-sized assembly type, acquiring a transfer diagram number corresponding to the part to be sorted;

performing data processing on the transit outcome picture number to obtain a target transit outcome picture number;

determining a pre-production class group corresponding to the parts to be sorted according to the target turning chart number;

and determining the warehouse numbers corresponding to the parts to be sorted according to the pre-manufactured pre-group, and sorting the parts to be sorted according to the warehouse numbers.

Optionally, after the step of obtaining the assembly type corresponding to the parts to be sorted when the parts type is a final assembly shop parts type, the method further includes:

when the assembly type corresponding to the parts to be sorted is not acquired, acquiring part function codes corresponding to the parts to be sorted;

and determining the warehouse number corresponding to the parts to be sorted according to the part function code, and sorting the parts to be sorted according to the warehouse number.

In addition, in order to achieve the above object, the present invention further provides a parts sorting system, including:

the part category acquisition module is used for acquiring part categories corresponding to parts to be sorted;

the warehouse dividing module is used for dividing the parts to be subjected to warehouse division according to a preset warehouse dividing rule when the parts are classified into a frame workshop part or an axle workshop part;

the assembly type obtaining module is used for obtaining the assembly type corresponding to the parts to be sorted when the part type is a general assembly workshop part type;

and the warehouse dividing module is also used for acquiring the warehouse number corresponding to the parts to be subjected to warehouse division when the assembly type is a large assembly type, and dividing the parts to be subjected to warehouse division according to the warehouse number.

Optionally, the warehouse sorting module is further configured to, when the part category is a frame shop part category, obtain a frame shop warehouse number corresponding to the frame shop part category, and sort the parts to be sorted according to the frame shop warehouse number; and when the component category is the axle workshop component category, acquiring an axle workshop warehouse number corresponding to the axle workshop component category, and sorting the components to be sorted according to the axle workshop warehouse number.

Optionally, the library dividing module is further configured to, when the assembly category is a large assembly category, obtain a large assembly identifier corresponding to the component to be subjected to library dividing; and determining the warehouse number corresponding to the parts to be sorted according to the large assembly identification, and sorting the parts to be sorted according to the warehouse number.

Optionally, the warehouse dividing module is further configured to obtain a transfer chart number corresponding to the part to be warehoused when the assembly type is a medium-sized and small-sized assembly type; performing data processing on the transit outcome picture number to obtain a target transit outcome picture number; determining a pre-production class group corresponding to the parts to be sorted according to the target turning chart number; and determining the warehouse numbers corresponding to the parts to be sorted according to the pre-manufactured pre-group, and sorting the parts to be sorted according to the warehouse numbers.

Optionally, the inventory dividing module is further configured to, when the assembly category corresponding to the component to be inventory divided is not obtained, obtain a component function code corresponding to the component to be inventory divided; and determining the warehouse number corresponding to the parts to be sorted according to the part function code, and sorting the parts to be sorted according to the warehouse number.

According to the method, the parts and components to be sorted are sorted according to the preset sorting rule when the parts and components are classified into parts and components in a frame workshop or parts and components in an axle workshop, the assembly types corresponding to the parts and components to be sorted are obtained when the parts and components are classified into parts and components in a general assembly workshop, the warehouse numbers corresponding to the parts and components to be sorted are obtained when the assembly types are large assembly types, and the parts and components to be sorted are sorted according to the warehouse numbers. According to the invention, by acquiring the types of the parts and sorting different parts according to the types of the parts, compared with the existing mode that the parts are sorted manually, the mode provided by the invention can realize automatic sorting of the parts, and improves the sorting efficiency and accuracy.

Drawings

FIG. 1 is a schematic flow chart of a component library sorting method according to a first embodiment of the present invention;

FIG. 2 is a schematic flow chart of a component library sorting method according to a second embodiment of the present invention;

FIG. 3 is a flow chart illustrating a component warehousing method according to a third embodiment of the present invention;

fig. 4 is a block diagram showing the structure of the first embodiment of the parts library system of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

An embodiment of the present invention provides a component library sorting method, and referring to fig. 1, fig. 1 is a schematic flow diagram of a first embodiment of the component library sorting method according to the present invention.

In this embodiment, the component library dividing method includes the following steps:

step S10: acquiring part types corresponding to parts to be sorted;

it should be noted that the execution main body of this embodiment may be a component library dividing device or system having network communication and program running functions, or may be other devices capable of implementing the same or similar functions, which is not limited in this embodiment.

It is understood that the warehouse number, warehouse name and management materials corresponding to each warehouse are not necessarily the same, for example: the warehouse name is standard component library, the corresponding warehouse number is LD10, and the corresponding management material is Q letter standard component of heading: assembling bolts, screws, nuts, rivets, washers, elastic pads, check rings, split pins, pin shafts, joints, screw plugs, hoop, hose clamps, hoop, clamps, clips, clamping pieces, gaskets and pipe clamps; pin, spring, grease nipple. The warehouse is named as an engine workshop warehouse, the corresponding warehouse is numbered as LD17, and the corresponding management materials are engine assembly line parts, water inlet and outlet pipes, engine wiring harnesses, fans, air filter supports, warm air pipes, air conditioning pipes, compressors and supports, intercooler supports, exhaust pipes, corrugated pipes, air pipes (non-nylon), engine cylinder body supports, front and rear engine cushions and the like) first air pipes and the like; other warehouse numbers, warehouse names and management materials can be set according to actual conditions, and this embodiment is not particularly limited thereto.

It should be understood that the component categories corresponding to the components to be sorted may be component categories obtained by performing category analysis on the components to be sorted in advance by workshop staff or component sorting equipment, and the categories may be obtained by performing analysis according to the component information such as a workshop and a volume area of the components, and in this embodiment, the component categories may include a frame workshop component category, an axle workshop component category, and a final assembly workshop component category.

Step S20: when the part category is a frame workshop part category or an axle workshop part category, sorting the parts to be sorted according to a preset sorting rule;

it should be noted that the parts corresponding to the parts categories of the frame shop may include iron parts such as castings and stamping parts used in the frame shop, and the parts corresponding to the parts categories of the axle shop may include non-standard parts used in the axle shop (gears, brakes, adjusting arms, steering knuckles, upper and lower arms, ABS, kingpins, axles), and the like.

Further, in order to accurately library the parts in the frame shop parts category or the axle shop parts category, step S20 in this embodiment further includes: when the part category is a frame workshop part category, acquiring a frame workshop warehouse number corresponding to the frame workshop part category, and sorting the parts to be sorted according to the frame workshop warehouse number; and when the component category is the axle workshop component category, acquiring an axle workshop warehouse number corresponding to the axle workshop component category, and sorting the components to be sorted according to the axle workshop warehouse number.

In order to realize automatic warehousing of parts, in this embodiment, a corresponding relationship between the frame shop warehouse number and the frame shop component category and a corresponding relationship between the axle shop warehouse number and the axle shop component category may be established in advance, for example, the frame shop warehouse number corresponding to the frame shop component category a is set to LD07, and the axle shop warehouse number corresponding to the axle shop component category B is LD 04.

In this embodiment, generally, the warehouse corresponding to the frame shop part category and the warehouse corresponding to the axle shop part category are different from each other, so when the parts to be sorted are the frame shop part category or the axle shop part category, the parts to be sorted can be automatically allocated to the corresponding parts library, thereby improving the work efficiency and accuracy.

Step S30: when the part category is a final assembly workshop part category, acquiring an assembly category corresponding to the parts to be sorted;

the parts corresponding to the types of parts in the assembly shop are parts that are assembled by assembling scattered parts into a whole having a specific function, can be used as they are, and do not require time for assembly.

It can be understood that, in this embodiment, the assembly categories corresponding to the parts to be sorted may be obtained by analyzing the parts to be sorted in advance by workshop staff or parts sorting equipment, and the assembly categories may include a large assembly category and a medium-small assembly category.

Step S40: and when the assembly type is a large assembly type, acquiring a warehouse number corresponding to the parts to be sorted, and sorting the parts to be sorted according to the warehouse number.

Further, in order to determine the warehouse number so as to sort the parts to be sorted, in this embodiment, the step S40 includes: when the assembly type is a large assembly type, acquiring a large assembly identification corresponding to the parts to be sorted; and determining the warehouse number corresponding to the parts to be sorted according to the large assembly identification, and sorting the parts to be sorted according to the warehouse number.

It should be understood that the large assembly identifier refers to an identifier defined for the parts to be sorted in the large assembly category, and may be specifically defined according to the actual situation, for example: the large assembly id corresponding to the frame assembly type may be defined as 2801, and the large assembly id corresponding to the battery assembly type may be defined as 3701, which is not limited in this embodiment.

In a specific implementation, different large assembly identifications correspond to different warehouse numbers, for example: the warehouse number corresponding to the large assembly identifier 2801 is LD22, and the warehouse number corresponding to the large assembly identifier 3701 is LD22, which may be specifically set according to the actual situation, and this embodiment does not specifically limit this.

In the embodiment, the warehouse number is determined according to the large assembly identifier, so that a uniform large assembly identifier can be formed, and then the parts to be sorted are sorted according to the warehouse number, so that the working efficiency and the accuracy are improved.

In the embodiment, the parts to be sorted are sorted according to the preset sorting rule when the parts are classified into parts in a frame workshop or parts in an axle workshop by acquiring the parts corresponding to the parts to be sorted, the assembly types corresponding to the parts to be sorted are acquired when the parts are classified into parts in a general assembly workshop, the warehouse numbers corresponding to the parts to be sorted are acquired when the assembly types are large assembly types, and the parts to be sorted are sorted according to the warehouse numbers. In the embodiment, the types of the parts are obtained, and then different parts are sorted according to the types of the parts, compared with the existing mode that the parts are sorted manually, the mode provided by the invention can realize automatic sorting of the parts, and improves the sorting efficiency and accuracy.

Referring to fig. 2, fig. 2 is a schematic flow chart of a component library sorting method according to a second embodiment of the present invention.

Based on the first embodiment, in this embodiment, after step S30, the method further includes:

step S301: when the assembly type is a medium and small-sized assembly type, acquiring a transfer diagram number corresponding to the part to be sorted;

it should be noted that the diversion chart number refers to a chart number of a component after trial production, and for the same component, the diversion chart number and the trial production chart number are different only in suffix, for example: the trial drawing number is 24AD411AA003S0, and the transformation drawing number is 24AD411AA003A 0; the trial drawing number is 2914010A002S0, and the transformation drawing number is 2914010A002A 0.

Step S302: performing data processing on the transit outcome picture number to obtain a target transit outcome picture number;

it is understood that the data processing refers to deleting the suffix of the diversion chart number, that is, deleting the character suffix of which the diversion chart number is different from the trial chart number at the same position, for example: when the number of the transit map is 24AD411AA003A0, the number of the target transit map is 24AD411AA 003; when the number of the transit chart is 2914010A002A0, the number of the target transit chart is 2914010A 002.

Step S303: determining a pre-production class group corresponding to the parts to be sorted according to the target turning chart number;

it should be understood that, in order to implement automatic sub-warehouse of parts, the corresponding relationship between the target turning chart number and the pre-production pre-classification group may be established in advance in this embodiment, for example: when the target transit map number is 24AD411AA003, the corresponding trial-made pre-class group is an A combination; when the target transition chart number is 2914010A002, the corresponding trial preportioning group is also the A combination.

Step S304: and determining the warehouse numbers corresponding to the parts to be sorted according to the pre-manufactured pre-group, and sorting the parts to be sorted according to the warehouse numbers.

In a specific implementation, in order to implement automatic sub-warehousing of parts, in this embodiment, a correspondence between pre-prepared pre-teams and warehouse numbers may be pre-established, for example: when the pre-manufactured team group is the group a, the corresponding warehouse number is LD20, which is not specifically limited in this embodiment.

In the embodiment, when the assembly type is the medium and small-sized assembly type, the turning map number corresponding to the parts to be sorted is obtained, data processing is performed on the turning map number to obtain the target turning map number, a pre-production group corresponding to the parts to be sorted is determined according to the target turning map number, a warehouse number corresponding to the parts to be sorted is determined according to the pre-production group, and the parts to be sorted are sorted according to the warehouse number. According to the method and the device, the target turning chart number is obtained through data processing of the turning chart number, effective data can be extracted, then the pre-production group is determined according to the target turning chart number, the warehouse number is determined according to the pre-production group, so that the parts to be sorted are sorted, and the work efficiency and the accuracy of the part sorting can be improved.

Referring to fig. 3, fig. 3 is a schematic flow chart of a component library sorting method according to a third embodiment of the present invention.

Based on the foregoing embodiments, in this embodiment, after step S30, the method further includes:

step S301': when the assembly type corresponding to the parts to be sorted is not acquired, acquiring part function codes corresponding to the parts to be sorted;

it should be noted that the component function codes may be predefined in the components to be sorted, and the component function codes corresponding to the same component are consistent.

It is understood that the part function code typically has 7 digits, with the 1 st and 2 nd digits representing the group number, the 1 st, 2 nd, 3 rd and 4 th digits representing the group number, and the 5 th, 6 th and 7 th digits representing the serial number, for example: 3407010, 1104010, etc.

Step S302': and determining the warehouse number corresponding to the parts to be sorted according to the part function code, and sorting the parts to be sorted according to the warehouse number.

It should be understood that, in order to implement automatic sub-warehouse of the components, the corresponding relationship between the component function codes and the warehouse numbers may be pre-established in this embodiment, for example: when the part function code is 3407010, the corresponding warehouse number is 15; when the part function code is 1104010, the corresponding bin number is 8.

In this embodiment, when the assembly category corresponding to the component to be sorted is not acquired, the component function code corresponding to the component to be sorted is acquired, then the warehouse number corresponding to the component to be sorted is determined according to the component function code, and the component to be sorted is sorted according to the warehouse number. According to the method and the device, the corresponding warehouse serial number is determined according to the part function code so as to sort the parts to be sorted, and the work efficiency and the accuracy of sorting the parts can be improved.

Referring to fig. 4, fig. 4 is a block diagram illustrating a first embodiment of the component library system according to the present invention.

As shown in fig. 4, the component library dividing system according to the embodiment of the present invention includes:

a part category obtaining module 401, configured to obtain part categories corresponding to parts to be sorted;

a library dividing module 402, configured to divide the to-be-library-divided components according to preset library dividing rules when the component category is a frame workshop component category or an axle workshop component category;

an assembly type obtaining module 403, configured to obtain an assembly type corresponding to the component to be sorted when the component type is a component type in a final assembly shop;

the library dividing module 402 is further configured to, when the assembly type is a large assembly type, obtain a warehouse number corresponding to the component to be subjected to library dividing, and divide the component to be subjected to library dividing according to the warehouse number.

In the embodiment, the parts to be sorted are sorted according to the preset sorting rule when the parts are classified into parts in a frame workshop or parts in an axle workshop by acquiring the parts corresponding to the parts to be sorted, the assembly types corresponding to the parts to be sorted are acquired when the parts are classified into parts in a general assembly workshop, the warehouse numbers corresponding to the parts to be sorted are acquired when the assembly types are large assembly types, and the parts to be sorted are sorted according to the warehouse numbers. In the embodiment, the types of the parts are obtained, and then different parts are sorted according to the types of the parts, compared with the existing mode that the parts are sorted manually, the mode provided by the invention can realize automatic sorting of the parts, and improves the sorting efficiency and accuracy.

Based on the first embodiment of the component library organizing system of the present invention, a second embodiment of the component library organizing system of the present invention is provided.

In this embodiment, the warehousing module 402 is further configured to, when the part category is a frame shop part category, obtain a frame shop warehouse number corresponding to the frame shop part category, and perform warehousing on the parts to be warehoused according to the frame shop warehouse number; and when the component category is the axle workshop component category, acquiring an axle workshop warehouse number corresponding to the axle workshop component category, and sorting the components to be sorted according to the axle workshop warehouse number.

Further, the library dividing module 402 is further configured to, when the assembly category is a large assembly category, obtain a large assembly identifier corresponding to the component to be subjected to library dividing; and determining the warehouse number corresponding to the parts to be sorted according to the large assembly identification, and sorting the parts to be sorted according to the warehouse number.

Further, the library dividing module 402 is further configured to obtain a transfer chart number corresponding to the component to be subjected to library dividing when the assembly type is a medium-sized and small-sized assembly type; performing data processing on the transit outcome picture number to obtain a target transit outcome picture number; determining a pre-production class group corresponding to the parts to be sorted according to the target turning chart number; and determining the warehouse numbers corresponding to the parts to be sorted according to the pre-manufactured pre-group, and sorting the parts to be sorted according to the warehouse numbers.

Further, the library sorting module 402 is further configured to, when the assembly category corresponding to the component to be subjected to library sorting is not obtained, obtain a component function code corresponding to the component to be subjected to library sorting; and determining the warehouse number corresponding to the parts to be sorted according to the part function code, and sorting the parts to be sorted according to the warehouse number.

Other embodiments or specific implementation manners of the component library dividing system of the present invention may refer to the above method embodiments, and are not described herein again.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., a rom/ram, a magnetic disk, an optical disk) and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.