CN116029741A - Binding method and device of sequence codes, electronic equipment and storage medium - Google Patents

Abstract

The embodiment of the invention relates to the technical field of automation, and discloses a binding method and device of a sequence code, electronic equipment and a storage medium. The binding method of the sequence code comprises the following steps: acquiring material batch information of outsourcing pieces corresponding to sequence codes of the outsourcing pieces of the target whole machine according to the whole machine assembly relation data of the target whole machine acquired from a whole machine test system and the material identification information of each outsourcing piece corresponding to the sequence codes of each outsourcing piece of the target whole machine; the whole machine assembly relation data comprises material identification information and material batch information of each outsourcing piece for assembling the target whole machine; matching the whole machine assembly relation data with the material information of each outsourcing part acquired from the purchasing and delivering system to obtain a target outsourcing part successfully matched; and binding the material information of the target outsourcing piece acquired from the purchasing and delivering system with the sequence code of the target outsourcing piece, so that the reverse tracing and the material identification of the outsourcing piece can be realized at low cost.

Description

Binding method and device of sequence codes, electronic equipment and storage medium

Technical Field

The embodiment of the application relates to the technical field of automation, in particular to a binding method and device of a sequence code, electronic equipment and a storage medium.

Background

For modern manufacturing enterprises, traceability of the full life cycle of the product is crucial from purchasing raw materials, manufacturing the product to normal delivery of the whole machine and spare parts, and reverse repair processes. There are more definite legal requirements in some countries for the export and transfer of items, when any product recall or component repair occurs, the identity of the received material needs to be determined. Therefore, most manufacturers in the process of purchasing raw materials require suppliers to post serial codes according to the company material coding specification, and serial code management is an important means for preventing material errors and tracing quality of a manufacturing execution system (Manufacturing Execution System, abbreviated as MES).

Sequence code control is usually carried out on materials which are sensitive to technology or are valuable, and quick association of labels and objects is realized by one object and one code. When the product is manufactured, the Material demands of different Material codes are calculated according to a Bill of materials (BOM) and assembled, so that the Material printing label controlled by the sequence codes simultaneously comprises the sequence codes and the Material codes compiled in the sequence codes. However, for the outsourcing parts such as the hard disk, the processor, the memory bank and the network card, the general suppliers have specific labels or screen printing, so that labels containing codes of materials of the manufacturer can not be posted on each material according to the requirements of the manufacturer, and the sequence codes cannot enter the system, thereby bringing difficulty to tracing the materials.

At present, manufacturers reprint and post labels for materials requiring sequence code management in the production and material receiving link, and register a large number of sequence codes manually, but the mode brings additional working procedures and labor cost.

Disclosure of Invention

The main purpose of the embodiment of the application is to provide a registration method of a sequence code, electronic equipment and a storage medium, and the reverse tracing and material identification of outsourcing parts can be realized at low cost.

In order to achieve the above object, an embodiment of the present application provides a binding method for a sequence code, including: acquiring material batch information of outsourcing pieces corresponding to sequence codes of the outsourcing pieces of the target whole machine according to the whole machine assembly relation data of the target whole machine acquired from a whole machine test system and the material identification information of each outsourcing piece corresponding to the sequence codes of each outsourcing piece of the target whole machine; the whole machine assembly relation data comprises material identification information and material batch information of each outsourcing piece for assembling the target whole machine; matching the whole machine assembly relation data with the material information of each outsourcing part acquired from the purchasing and delivering system to obtain a target outsourcing part successfully matched; binding the material information of the target outsourcing piece acquired from the purchasing and delivering system with the sequence code of the target outsourcing piece.

In order to achieve the above object, an embodiment of the present application further provides a binding device for a sequence code, including: the acquisition module is used for acquiring the material batch information of the outsourcing pieces corresponding to the sequence codes of the outsourcing pieces of the target whole machine according to the whole machine assembly relation data of the target whole machine acquired from the whole machine test system and the material identification information of the outsourcing pieces corresponding to the sequence codes of the outsourcing pieces of the target whole machine; the whole machine assembly relation data comprises material identification information and material batch information of each outsourcing piece for assembling the target whole machine; the matching module is used for matching the whole machine assembly relation data with the material information of each outsourcing piece acquired from the purchasing and delivering system to obtain a successfully matched target outsourcing piece; and the binding module is used for binding the material information of the target outsourcing piece acquired from the purchasing and delivering system with the sequence code of the target outsourcing piece.

To achieve the above object, an embodiment of the present application further provides a server, including: at least one processor; and a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the sequence code binding method described above.

To achieve the above object, an embodiment of the present application further provides a computer readable storage medium storing a computer program, where the computer program implements the above binding method of sequence codes when executed by a processor.

According to the binding method of the sequence code, the complete machine assembly relation data of the target complete machine and the material identification information of each outsourcing piece corresponding to the sequence code of each outsourcing piece of the target complete machine are obtained from the complete machine testing system, so that the material batch information of the outsourcing piece corresponding to the sequence code of each outsourcing piece of the target complete machine is obtained, wherein the complete machine assembly relation comprises the material identification information and the material batch information of each outsourcing piece for assembling the target complete machine, the complete machine assembly relation data is matched with the material information of each outsourcing piece obtained from the purchasing and delivering system, the successfully matched target outsourcing piece can be obtained, the material information of the target outsourcing piece can be obtained from the purchasing system according to the successfully matched target outsourcing piece, and the binding of the material information of the target outsourcing piece and the sequence code of the target outsourcing piece can be achieved without manually registering the sequence code of the outsourcing piece or writing additional information into hardware.

Drawings

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which the figures are not to be considered limiting unless expressly stated otherwise.

FIG. 1 is a block diagram of a system according to one embodiment of the present invention;

FIG. 2 is a flow chart of a method of binding sequence codes provided in accordance with one embodiment of the present invention;

FIG. 3 is a schematic diagram of a material barcode center provided in accordance with one embodiment of the present invention;

FIG. 4 is a schematic diagram of a binding apparatus for a sequence code provided according to one embodiment of the present invention;

fig. 5 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the embodiments of the present application will be described in detail below with reference to the accompanying drawings. However, as will be appreciated by those of ordinary skill in the art, in the various embodiments of the present application, numerous technical details have been set forth in order to provide a better understanding of the present application. However, the technical solutions claimed in the present application can be implemented without these technical details and with various changes and modifications based on the following embodiments. The following embodiments are divided for convenience of description, and should not be construed as limiting the specific implementation of the present application, and the embodiments may be mutually combined and referred to without contradiction.

An embodiment of the present invention relates to a binding method of a sequence code, and an application scenario of the present embodiment may include, but is not limited to: the IT system for purchasing, manufacturing, warehousing, engineering service, repairing and the like is mainly used for tracing the source of the outsourcing part related to the life cycle of the product, identifying the identity of the repaired outsourcing part and the like. The architecture diagram of the system to which the binding method of the sequence code of this embodiment is applied is shown in fig. 1, and specifically includes:

a purchasing and delivering system 101, a manufacturing and executing system 102, a complete machine testing system 103, a material bar code center 104 and a repairing center 105.

The purchasing and delivering system 101 is configured to determine whether the outsourcing piece needs serial code management and control after a delivery bar code of the outsourcing piece provided by a supplier is introduced, generate material batch information corresponding to the outsourcing piece for the outsourcing piece needing serial code management and control, set a mark for indicating a sequence code to be registered for the material batch information of the outsourcing piece, and obtain the outsourcing piece marked as the sequence code to be registered when a material bar code center screens the material information of each outsourcing piece acquired from the purchasing and delivering system; and generating material batch information corresponding to the outsourcing piece for the outsourcing piece which does not need sequence code management and control, and not marking.

The manufacturing execution system 102 is configured to assemble each outsourcing part of the target complete machine according to a production task of the target complete machine, and generate complete machine sequence codes and complete machine assembly relationship data.

In one example, the manufacturing execution system 102 includes production tasks of a plurality of complete machines, and the manufacturing execution system 102 may select a target complete machine for production according to requirements, and then assemble each outsource of the target complete machine according to the production tasks of the target complete machine.

The complete machine testing system 103 is configured to read the sequence code of each outsourcing piece of the target complete machine according to the operating system, and then send the read sequence code of each outsourcing piece of the target complete machine, and complete machine sequence code and complete machine assembly relationship data of the target complete machine obtained from the manufacturing execution system 102 to the material barcode center, so that the material barcode center obtains material identification information and material batch information of the outsourcing piece corresponding to the sequence code of the outsourcing piece of the target complete machine.

The material bar code center 104 is configured to obtain material batch information of the purchased parts corresponding to the serial codes of the purchased parts of the target complete machine according to the complete machine assembly relationship data of the target complete machine obtained from the complete machine testing system and the material identification information of each purchased part corresponding to the serial codes of each purchased part of the target complete machine; the whole machine assembly relation data comprises material identification information and material batch information of each outsourcing piece for assembling the target whole machine; matching the whole machine assembly relation data with the material information of each outsourcing piece acquired from the purchasing and delivering system to obtain a target outsourcing piece successfully matched; and binding the material information of the target outsourcing piece acquired from the purchasing and delivering system with the sequence code of the target outsourcing piece.

The repair center 105 can input the serial codes of the outsourced pieces into the material bar code center 104 to trace the identities of the outsourced pieces.

The binding method of the sequence code in the embodiment is applied to a material bar code center, and a specific flow chart is shown in fig. 2, and comprises the following steps:

step 201, obtaining material batch information of outsourcing pieces corresponding to sequence codes of the outsourcing pieces of the target whole machine according to the whole machine assembly relation data of the target whole machine obtained from the whole machine test system and the material identification information of the outsourcing pieces corresponding to the sequence codes of the outsourcing pieces of the target whole machine, wherein the whole machine assembly relation data comprises the material identification information and the material batch information of the outsourcing pieces for assembling the target whole machine.

And 202, matching the whole machine assembly relation data with the material information of each outsourcing part acquired from the purchasing and delivering system to obtain the target outsourcing part successfully matched.

And 203, binding the material information of the target outsourcing piece acquired from the purchasing and delivering system with the serial code of the target outsourcing piece.

In this embodiment, the complete machine assembly relationship data of the target complete machine and the material identification information of each outsourcing piece corresponding to the sequence code of each outsourcing piece of the target complete machine are obtained from the complete machine test system, so as to obtain the material batch information of the outsourcing piece corresponding to the sequence code of each outsourcing piece of the target complete machine, wherein the complete machine assembly relationship comprises the material identification information and the material batch information of each outsourcing piece for assembling the target complete machine, the complete machine assembly relationship data is matched with the material information of each outsourcing piece obtained from the purchasing delivery system, so that the successfully matched target outsourcing piece can be obtained, the material information of the target outsourcing piece can be obtained from the purchasing system according to the successfully matched target outsourcing piece, and the binding of the material information of the target outsourcing piece and the sequence code of the target outsourcing piece can be realized without manually registering the sequence code of the outsourcing piece or writing additional information into hardware.

The implementation details of the binding method of the sequence code of the present embodiment are specifically described below, and the following description is provided only for convenience of understanding, and is not necessary to implement the present embodiment.

In step 201, the material barcode center obtains material lot information of the purchased parts corresponding to the serial codes of the purchased parts of the target complete machine according to the complete machine assembly relationship data of the target complete machine obtained from the complete machine testing system and the material identification information of each purchased part corresponding to the serial codes of each purchased part of the target complete machine. Wherein, because the complete machine assembly relation data comprises material identification information and material batch information of each outsourcing piece for assembling the target complete machine, the material bar code center firstly can be according to the complete machine assembly relation data of the target complete machine obtained from the complete machine test system and the sequence code of each outsourcing piece of the target complete machine.

In one example, the material bar code center performs real-time incremental synchronization on the complete machine assembly relationship data of the target complete machine, the serial codes of the outsourcing pieces of the target complete machine, and the material information of the outsourcing pieces acquired from the purchase delivery system, which are acquired from the complete machine test system.

In one example, the material identification information of the outsourcing piece includes a model and/or a material type, and the serial code of each outsourcing piece corresponds to the material type and the model respectively, so that the material bar code center searches the complete machine assembly relation data for the same material type and/or model according to the material type and/or model corresponding to the serial code, and then obtains the material batch information corresponding to the serial code of the outsourcing piece of the target complete machine according to the material identification information of the outsourcing piece belonging to the same searched material type and/or model.

In one example, the whole machine assembly relationship data of one whole machine may include a multi-layer assembly relationship, that is, one whole machine may be divided into a plurality of boards and modules, each of which may be composed of a plurality of outsourcing pieces.

In one example, the material bar code center obtains the material type of the outsourcing piece for indicating the sequence code of the outsourcing piece in the whole machine assembly relation data according to the whole machine assembly relation data of the target whole machine and the sequence code of each outsourcing piece of the target whole machine, for example, the material type of each outsourcing piece in the whole machine assembly relation data of the target whole machine comprises: a central processing unit (Central Processing Unit, CPU for short), a hard disk and a memory bank; the sequence code of each outsourcing part of the target whole machine comprises: and if the material type indicated by the sequence code 1 is CPU, the material bar code center can inquire the sequence code 1 of the outsourcing piece indicated by the CPU according to the CPU acquired from the whole machine assembly relation data of the target whole machine, so that the material batch information of the outsourcing piece corresponding to the sequence code 1 is obtained.

In another example, if the material type of each outsourcing piece in the obtained complete machine assembly relation data of the target complete machine is a Hard Disk Drive (HDD), but two material lot information are corresponding; the sequence code of each outsourcing part of the target whole machine comprises: the sequence codes 1, 2 and 3, namely, the outsourcing pieces with the same material types in the whole machine assembly relation data of the target whole machine are all HDDs, namely, the sequence codes 1, 2 and 3 indicate that the outsourcing pieces are all HDDs, but when the material batch information of the HDDs is different, the sequence codes 1, 2 and 3 indicate the material batch information of the HDDs respectively, namely, when the material types of the outsourcing pieces are the same, but the material batch information of the outsourcing pieces is different, the material batch information of the outsourcing pieces corresponding to the sequence codes of the outsourcing pieces of the target whole machine cannot be obtained according to the material types of the outsourcing pieces. Therefore, the material bar code center obtains the model of the outsourcing piece for indicating the sequence code of the outsourcing piece in the whole machine assembly relation data according to the whole machine assembly relation data of the target whole machine and the sequence code of each outsourcing piece of the target whole machine, for example, the model of the same outsourcing piece in the whole machine assembly relation data of the target whole machine comprises: the serial codes of each outsourcing part of the target whole machine comprise the following components in model 1 and model 2: and if the model indicated by the sequence code 4 is model 2, the material bar code center inquires the sequence code 4 indicated by the model 2 according to the model 2 acquired from the whole machine assembly relation data of the target whole machine, so that the material batch information of the outsourcing part corresponding to the sequence code 4 is obtained.

In one embodiment, the material bar code center obtains complete machine assembly relation data of the target complete machine from the complete machine testing system, and material identification information of each outsourcing piece corresponding to a sequence code of each outsourcing piece of the target complete machine, and before obtaining material batch information of the outsourcing piece corresponding to the sequence code of the outsourcing piece of the target complete machine, the material bar code center obtains complete machine sequence code of the target complete machine from the manufacturing execution system, wherein the manufacturing execution system is used for assembling each outsourcing piece of the complete machine according to a production task of the target complete machine, and generating complete machine sequence code and complete machine assembly relation data. And acquiring the complete machine assembly relation data of the target complete machine and the sequence codes of all outsourcing pieces of the target complete machine according to the complete machine sequence codes of the target complete machine, and then acquiring the material identification information of all outsourcing pieces corresponding to the sequence codes of all outsourcing pieces of the target complete machine according to the complete machine assembly relation data of the target complete machine and the sequence codes of all outsourcing pieces of the target complete machine.

After the complete machine sequence code of the target complete machine is obtained from the manufacturing execution system, the manufacturing execution system also sends the complete machine sequence code and complete machine assembly relation data to the complete machine test system, when the complete machine test system receives a message of the complete machine assembly relation data of the target complete machine and the sequence code of each outsourcing piece of the target complete machine, the complete machine test system reads the sequence code of each outsourcing piece of the target complete machine according to the operating system, and then sends the read sequence code of each outsourcing piece of the target complete machine and the complete machine assembly relation data of the target complete machine to the material bar code center, so that the material bar code center can obtain the material identification information and the material batch information of the outsourcing piece corresponding to the sequence code of the outsourcing piece of the target complete machine.

In the specific implementation, the whole machine testing system can read the sequence code of the outsourcing parts of most general material types of the target whole machine according to the operating system, for example, the sequence code of the CPU and the sequence code of the hard disk; the sequence code of the outsourcing part of the small material type is not easy to read, for example, the network card is required to be read by different orders for different brands of network cards, so that the sequence code is required to be manually interfered for supplementary registration.

In step 202, the material barcode center matches the complete machine assembly relationship data with the material information of each outsourcing piece acquired from the purchasing and delivering system, and a successfully matched target outsourcing piece is obtained.

In one example, the material information includes: the system comprises a material name, material batch information, material codes, material types and material quantity, wherein a mark for indicating a sequence code to be registered is arranged in the material batch information.

In one example, the material bar code center screens the material information of each outsourcing piece acquired from the purchasing and delivering system to obtain the outsourcing piece marked as the sequence code to be registered, and then matches the outsourcing piece marked as the sequence code to be registered with the whole machine assembly relation data to obtain the target outsourcing piece successfully matched.

In the specific implementation, after a purchasing and delivering system is introduced into a delivering bar code of an outsourcing piece provided by a supplier, the delivering bar code is a box code or a minimum packing code of the outsourcing piece, the purchasing and delivering system judges whether the outsourcing piece needs sequence code control, generates material batch information corresponding to the outsourcing piece for the outsourcing piece needing sequence code control, sets a mark for indicating a sequence code to be registered for the material batch information of the outsourcing piece, and when a material bar code center screens the material information of each outsourcing piece acquired from the purchasing and delivering system, obtains the outsourcing piece marked as the sequence code to be registered; and generating material batch information corresponding to the outsourcing piece for the outsourcing piece which does not need sequence code management and control, and not marking. When the label is set for the material batch information of the outsourcing piece needing sequence code management and control, the label is set according to whether the outsourcing piece can be read by the whole machine testing system through the sequence code of the external component, if the outsourcing piece can be read, the material batch information is marked as the sequence code to be registered, and if the outsourcing piece can not be read, the label is not marked.

In one embodiment, after the successfully matched target outsourcing piece is obtained, the material bar code center associates the complete machine sequence code of the target complete machine for the target outsourcing piece, so that the target complete machine corresponding to the outsourcing piece can be inquired through the outsourcing piece, the outsourcing piece contained in the target complete machine can be inquired through the target complete machine, the assembly relation between the complete machine sequence code and each outsourcing part sequence code can be traced, and the situation that the identity of the outsourcing piece cannot be determined after maintenance and disassembly is avoided.

In step 203, the material barcode center binds the material information of the target outsourcing piece acquired from the purchasing and delivering system with the sequence code of the target outsourcing piece, associates the complete machine sequence code of the target complete machine corresponding to the target outsourcing piece with the sequence code of the target outsourcing piece after binding, registers the sequence code of the target outsourcing piece to the material barcode center, and marks the material batch information of the target outsourcing piece as the registered sequence code.

In the embodiment, the binding relation is established for the material information of the target outsourcing piece, the sequence code of the target outsourcing piece and the whole machine sequence code of the target whole machine corresponding to the target outsourcing piece, so that one-object one-code management and control of the life cycle of the outsourcing piece after the whole machine is assembled is realized, and the problems of traceability of the outsourcing piece after the outsourcing piece is disassembled from the whole machine and identification of the outsourcing piece during repair are solved.

In one embodiment, after the purchase delivery system imports the delivery bar code of the outsourcing piece provided by the supplier, the delivery bar code of the target outsourcing piece is scanned and identified by using a scanning gun, the sequence code of the target outsourcing piece is obtained, and the sequence code of the target outsourcing piece is registered to the material bar code center in a manual mode, in one example, if the material type of the outsourcing piece is a processor, the material type of the outsourcing piece cannot be scanned and identified by the scanning gun.

The structure diagram of the material barcode center in this embodiment is shown in fig. 3, and includes: the system comprises a peripheral library 301, a data synchronization service module 302, a middle library 303, a data adaptation service module 304, a bar code interface service module 305 and a bar code library 306.

The peripheral library 301 is used for connecting with a database of an external system, and receiving data sent by the external system, wherein the external system can be a purchase delivery system, a manufacturing execution system and a complete machine test system.

The data synchronization service module 302 is connected to the peripheral library 301, and is configured to synchronize data received by the peripheral library, specifically, to implement real-time incremental synchronization of the material information, the complete machine serial number, the complete machine assembly relationship data, and the serial number of each purchased part of the target complete machine in the peripheral library 301 to the intermediate library 303.

The intermediate library 303 is used for storing the material information, the whole machine sequence code, the whole machine assembly relation data and the sequence code of each outsourcing piece of the target whole machine, which are obtained from the purchasing and delivering system after the data synchronization service module 302 performs synchronization.

The data adapting service module 304 is configured to regularly read the material information, the sequence code of the whole machine, the assembly relationship data of the whole machine, and the sequence code of each outsourcing piece of the target whole machine of each outsourcing piece obtained from the purchasing and delivering system in the intermediate library module 303, convert the data format of the data into the data format adapted by the barcode library 306, and then establish a binding relationship for the sequence code of the target outsourcing piece of the material information of the target outsourcing piece obtained from the purchasing and delivering system, and correlate the sequence code of the whole machine of the target whole machine.

The barcode interface service module 305 is an interface of the barcode library 306, and is connected with the data adaptation service module 304, and the data adaptation service module 304 can register the serial code of the target outsourcing part into the barcode library by calling the barcode interface service module 305.

In one example, the barcode interface service module 305 is further configured to connect to the rework center 105, and the rework center 105 invokes the barcode interface service module 305 to search the barcode library 306 for the identity of the outsourced part.

The bar code library 306 is used to store bar codes of materials registered in a material bar code center, such as serial codes of outsourced items.

In one example, after the serial codes of the outsourcing parts are registered in the barcode database 306, in the process of material circulation of the outsourcing parts, the downstream system can query the material information bound by the serial codes of the outsourcing parts registered in the barcode database 306 through the barcode interface service module 305, record the system where the current outsourcing part is located, report the record to the master management center, and then the master management center can query the system where the current outsourcing part is located and the track of history circulation.

The above examples in this embodiment are examples for easy understanding and are not limited to the technical solution of the present invention.

The above steps of the methods are divided, for clarity of description, and may be combined into one step or split into multiple steps when implemented, so long as they include the same logic relationship, and they are all within the protection scope of this patent; it is within the scope of this patent to add insignificant modifications to the algorithm or flow or introduce insignificant designs, but not to alter the core design of its algorithm and flow.

Another embodiment of the present invention relates to a binding device for a sequence code, and details of the binding device for a sequence code in this embodiment are specifically described below, where the following details are provided only for understanding, and are not necessary for implementing the present embodiment, and fig. 4 is a schematic diagram of the binding device for a sequence code in this embodiment, including: an acquisition module 401, a matching module 402 and a binding module 403.

Specifically, the obtaining module 401 is configured to obtain, according to the complete machine assembly relationship data of the target complete machine obtained from the complete machine testing system, material batch information of each purchased part corresponding to the sequence code of each purchased part of the target complete machine, where the material identification information corresponds to the sequence code of each purchased part of the target complete machine; the complete machine assembly relation data comprises material identification information and material batch information of each outsourcing part for assembling the target complete machine.

In one example, the obtaining module 401 is further configured to obtain a complete machine sequence code of the target complete machine from the manufacturing execution system; the manufacturing execution system is used for assembling each outsourcing part of the target whole machine according to the production task of the target whole machine and generating whole machine sequence codes and whole machine assembly relation data; and acquiring the complete machine assembly relation data of the target complete machine according to the complete machine sequence code of the target complete machine, the sequence code of each outsourcing piece of the target complete machine, and acquiring the material identification information of each outsourcing piece corresponding to the sequence code of each outsourcing piece of the target complete machine according to the complete machine assembly relation data of the target complete machine and the sequence code of each outsourcing piece of the target complete machine.

In another example, the obtaining module 401 is further configured to obtain a material type and/or a model of each outsourcing piece in the whole machine assembly relationship data of the target whole machine, where the material type and/or the model is used for indicating the sequence code of the outsourcing piece, according to the whole machine assembly relationship data of the target whole machine obtained from the whole machine testing system and the material identification information of each outsourcing piece corresponding to the sequence code of each outsourcing piece of the target whole machine; and acquiring material batch information of the outsourcing piece corresponding to the sequence code of the outsourcing piece of the target whole machine according to the material type and/or model.

And the matching module 402 is used for matching the whole machine assembly relation data with the material information of each outsourcing part acquired from the purchasing and delivering system to obtain the target outsourcing part successfully matched.

In one example, the matching module 402 is further configured to associate the complete machine sequence code of the target complete machine with the target outsource after obtaining the target outsource successfully matched.

In one example, the matching module 402 is further configured to screen the material information of each outsourced part acquired from the purchase delivery system to obtain the outsourced part marked as the sequence code to be registered; and matching the outsourcing piece marked as the sequence code to be registered with the material information of each outsourcing piece acquired from the purchasing and delivering system to obtain the target outsourcing piece successfully matched.

And a binding module 403, configured to bind the material information of the target outsourcing part acquired from the purchase delivery system with the serial number of the target outsourcing part.

It is to be noted that this embodiment is an embodiment of an apparatus corresponding to the above-described method embodiment, and this embodiment may be implemented in cooperation with the above-described method embodiment. The related technical details and technical effects mentioned in the above embodiments are still valid in this embodiment, and in order to reduce repetition, they are not described here again. Accordingly, the related technical details mentioned in the present embodiment can also be applied to the above-described embodiments.

It should be noted that, each module involved in this embodiment is a logic module, and in practical application, one logic unit may be one physical unit, or may be a part of one physical unit, or may be implemented by a combination of multiple physical units. In addition, in order to highlight the innovative part of the present invention, units less closely related to solving the technical problem presented by the present invention are not introduced in the present embodiment, but it does not indicate that other units are not present in the present embodiment.

Another embodiment of the present invention relates to an electronic device, as shown in fig. 5, comprising: at least one processor 501; and a memory 502 communicatively coupled to the at least one processor 501; wherein the memory 502 stores instructions executable by the at least one processor 501, the instructions being executable by the at least one processor 501 to enable the at least one processor 501 to perform the binding method of the sequence code in the embodiments described above.

Another embodiment of the invention relates to a computer-readable storage medium storing a computer program. The computer program implements the above-described method embodiments when executed by a processor.

That is, it will be understood by those skilled in the art that all or part of the steps in implementing the methods of the embodiments described above may be implemented by a program stored in a storage medium, where the program includes several instructions for causing a device (which may be a single-chip microcomputer, a chip or the like) or a processor (processor) to perform all or part of the steps in the methods of the embodiments described herein. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples of carrying out the invention and that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (10)

1. A method for binding a sequence code, comprising:

acquiring material batch information of outsourcing pieces corresponding to sequence codes of the outsourcing pieces of the target whole machine according to the whole machine assembly relation data of the target whole machine acquired from a whole machine test system and the material identification information of each outsourcing piece corresponding to the sequence codes of each outsourcing piece of the target whole machine; the whole machine assembly relation data comprises material identification information and material batch information of each outsourcing piece for assembling the target whole machine;

matching the whole machine assembly relation data with the material information of each outsourcing part acquired from the purchasing and delivering system to obtain a target outsourcing part successfully matched;

binding the material information of the target outsourcing piece acquired from the purchasing and delivering system with the sequence code of the target outsourcing piece.

2. The method of sequence code binding according to claim 1, further comprising: after the target outsourcing part successfully matched is obtained, the method further comprises the following steps:

and associating the complete machine sequence code of the target complete machine with the target outsourcing part.

3. The method for binding the serial number according to claim 1, further comprising, before the step of obtaining the material lot information of the outsourcing piece corresponding to the serial number of the outsourcing piece of the target complete machine:

acquiring a complete machine sequence code of a target complete machine from a manufacturing execution system; the manufacturing execution system is used for assembling each outsourcing part of the target whole machine according to the production task of the target whole machine and generating the whole machine sequence code and the whole machine assembly relation data;

acquiring complete machine assembly relation data of the target complete machine and sequence codes of various outsourcing parts of the target complete machine according to the complete machine sequence codes of the target complete machine;

and acquiring material identification information of each outsourcing piece corresponding to the sequence code of each outsourcing piece of the target whole machine according to the whole machine assembly relation data of the target whole machine and the sequence code of each outsourcing piece of the target whole machine.

4. The method for binding a sequence code according to claim 1, wherein the material information includes:

material name, material batch information, material code, material type and material quantity; wherein, the material batch information is provided with a mark for indicating the sequence code to be registered.

5. The method for binding serial numbers according to claim 4, wherein said matching the complete machine assembly relationship data with the material information of each outsourcing piece obtained from the purchasing and delivering system to obtain a successfully matched target outsourcing piece comprises:

screening the material information of each outsourcing part acquired from the purchasing and delivering system to obtain the outsourcing part marked as the sequence code to be registered;

and matching the outsourcing piece marked as the sequence code to be registered with the whole machine assembly relation data to obtain a target outsourcing piece successfully matched.

6. The method of binding a serial number according to any one of claims 1 to 5, wherein the material identification information of the outsourcing piece comprises a model number and/or a material type; the serial codes of the outsourcing pieces correspond to material types and/or models respectively;

the obtaining the material batch information of the outsourcing piece corresponding to the sequence code of the outsourcing piece of the target whole machine comprises the following steps:

according to the material type and/or model corresponding to the sequence code, searching the same material type and/or model in the whole machine assembly relation data;

and acquiring material batch information of the outsourcing piece corresponding to the sequence code of the outsourcing piece of the target whole machine according to the searched material identification information of the outsourcing piece of the same material type and/or model.

7. The method of sequence code binding according to claim 1, further comprising: and synchronizing the whole machine assembly relation data of the target whole machine, the sequence codes of all the outsourcing pieces of the target whole machine and the material information of all the outsourcing pieces obtained from the purchasing and delivering system.

8. A sequence code binding apparatus, comprising:

the acquisition module is used for acquiring the material batch information of the outsourcing pieces corresponding to the sequence codes of the outsourcing pieces of the target whole machine according to the whole machine assembly relation data of the target whole machine acquired from the whole machine test system and the material identification information of the outsourcing pieces corresponding to the sequence codes of the outsourcing pieces of the target whole machine; the whole machine assembly relation data comprises material identification information and material batch information of each outsourcing piece for assembling the target whole machine;

the matching module is used for matching the whole machine assembly relation data with the material information of each outsourcing piece acquired from the purchasing and delivering system to obtain a successfully matched target outsourcing piece;

and the binding module is used for binding the material information of the target outsourcing piece acquired from the purchasing and delivering system with the sequence code of the target outsourcing piece.

9. An electronic device, comprising:

at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein,,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the binding method of the sequence code of any one of claims 1 to 7.

10. A computer readable storage medium storing a computer program, wherein the computer program when executed by a processor implements the method of binding a sequence code according to any one of claims 1 to 7.

Images