CN116245461A - Ship material supply chain purchasing management system, method, equipment and medium - Google Patents

Abstract

The invention relates to the technical field of ship management, in particular to a ship material supply chain purchasing management system, method, equipment and medium, comprising the following steps: a pallet management system, a material supply chain management system and an enterprise code management center system; the pallet management system is used for acquiring pallet data from an external docked design drawing intermediate library and carrying out overall process management on ship production materials according to the pallet data; the material supply chain management system is used for carrying out real-time positioning tracking and full supply chain management on materials of both sides of a material supply enterprise; the enterprise coding management center system is used for respectively carrying out identification coding on the tray data, the standard components and the non-standard components based on the identification analysis coding system, and inputting the identification coding data into the identification analysis secondary node for registration. The invention realizes the intelligent management of the full data link from the design issue to the production lead of the ship materials based on the identification analysis coding system, improves the production efficiency of the ship, and realizes the traceability of the ship production materials.

Description

Ship material supply chain purchasing management system, method, equipment and medium

Technical Field

The invention relates to the technical field of ship management, in particular to a ship material supply chain purchasing management system, a method, equipment and a medium.

Background

Along with the continuous and rapid development of national economy and national defense force of China, the ship construction technology is transformed towards high efficiency and intelligence, and at present, the intelligent manufacturing development of the domestic ship final assembly plant is still in an exploration stage and has a larger gap with the foreign advanced level.

The ship product is a comprehensive product, various achievements of production technology are reflected intensively, an upstream and downstream industrial chain covers 98 industrial departments of 122 national economy, the correlation surface in national economy is up to 80%, the types of materials involved in the production process are up to 5690, at present, the aspects of ship material purchase, storage, pickup and the like are still mostly manual dispatch, or are scattered in independent application systems, and an effective management means is lacking to control the conditions of standard components and non-standard components in a supply chain, so that the production plan is changed frequently due to the shortage of certain materials, and meanwhile, backlog of the arrived goods and materials is influenced, so that the whole process management of the ship material supply chain is needed to be realized.

Disclosure of Invention

The invention aims to provide a ship material supply chain purchasing management system, a method, equipment and a medium, so that the whole process management of a ship material supply chain is realized by utilizing an identification analysis technology, and effective coordination among ship industry enterprises is promoted.

In order to solve the technical problems, the invention provides a ship material supply chain purchasing management system, a method, equipment and a medium.

In a first aspect, the present invention provides a ship supply chain procurement management system, the system comprising: a tray management system, a material supply chain management system and an enterprise code management center system;

the tray management system is used for externally butting the design drawing intermediate library, acquiring tray data from the design drawing intermediate library and carrying out overall process management on materials required by ship production according to the tray data; the materials required by the ship production comprise standard components and non-standard components;

the material supply chain management system is used for acquiring basic information of standard components and non-standard components from the tray management system, and carrying out real-time positioning tracking and full supply chain management on material purchase data of both material supply enterprises based on the basic information;

The enterprise code management center system is used for externally butting the identification analysis secondary node, respectively carrying out identification coding on the tray data, the standard component and the non-standard component which are acquired from the tray management system based on the identification analysis coding system to obtain corresponding identification coding data, and inputting the identification coding data into the identification analysis secondary node for registration.

In further embodiments, the pallet management system comprises a standard component management system, a non-standard component management system, and a pallet receiving module; the standard component management system comprises a standard component purchase transfer module and a standard component material transfer module, and the non-standard component management system comprises a non-standard component export module and a non-standard component to goods acceptance module;

the standard part purchase transfer module is used for transferring the standard part selected according to the tray data to the material supply chain management system for standard part material purchase management;

the standard component material transfer module is used for receiving standard components purchased and accepted through the material supply chain management system;

the non-standard part export module is used for selecting a non-standard part according to the pallet data, and after confirming the export manufacturer and the receiving period according to the selected non-standard part, handing over a non-standard part order to the material supply chain management system for non-standard part production management;

The non-standard part to goods checking and accepting module is used for receiving and carrying out logistics distribution on the non-standard parts through the material supply chain management system, carrying out goods checking and accepting on the distributed non-standard parts, and after the distributed non-standard parts are qualified in goods checking and accepting, sending the non-standard parts qualified in checking and accepting to the tray receiving module;

the tray receiving module is used for carrying out tray nesting checking on the received standard components with qualified acceptance sent by the standard component material transfer module and the non-standard components with qualified acceptance sent by the non-standard component to goods acceptance module, and carrying out receiving reservation, tray delivery and goods receiving items of a production department after the tray nesting checking is passed.

In further embodiments, the supply chain management system includes a standard supply chain management system and a non-standard supply chain management system;

the standard component supply chain management system comprises a material provider selection module, a receiving period confirmation module, a logistics tracking module and a standard component to goods acceptance module which are connected in sequence; the standard component to goods acceptance module is further connected with the standard component material transfer module;

The non-standard part supply chain management system comprises an order confirmation module, a production node feedback module and a logistics distribution planning module which are sequentially connected; wherein, order confirmation module still connects the nonstandard spare export module, logistics distribution planning module still connects the nonstandard spare to goods inspection module.

In a further embodiment, the enterprise code management center system includes a standard component identification code module, a non-standard component identification code module, a tray identification code module, and a metadata model management module;

the tray identification coding module is used for carrying out identification coding on the tray data acquired from the tray management system, generating tray identification coding data, and supplementing attribute values of corresponding metadata models according to the pre-constructed metadata models in the business process advancing process;

the standard component identification coding module is used for carrying out identification coding on the standard component selected from the tray management system based on an identification analysis coding system, generating standard component identification coding data, linking the tray identification coding data to obtain standard component-tray identification coding data, and inputting the standard component-tray identification coding data into the identification analysis secondary node for registration; the method is also used for supplementing attribute values of corresponding metadata models according to the pre-constructed metadata models in the business process advancing process;

The non-standard part identification coding module is used for carrying out identification coding on the non-standard part selected from the tray management system based on an identification analysis coding system, generating non-standard part identification coding data, linking the tray identification coding data to obtain non-standard part-tray identification coding data, and inputting the non-standard part-tray identification coding data into the identification analysis secondary node for registration; the method is also used for supplementing attribute values of corresponding metadata models according to the pre-constructed metadata models in the business process advancing process;

and the metadata model management module is used for managing each metadata model based on data generated by business processes in the tray management system and the material supply chain management system.

In further embodiments, the metadata model includes a vendor metadata model, a logistics metadata model, a ship materials metadata model, and a tray metadata model.

In a further embodiment, the vendor metadata model includes vendor identification codes and vendor metadata model attributes; wherein the vendor identification code comprises a top level node code, a second level node code, an enterprise code, a classification, and a vendor code, and the vendor metadata model attribute comprises a vendor code, a vendor type, and a vendor qualification;

The logistics metadata model comprises a logistics identification code and logistics metadata model attributes; the logistics identification codes comprise top-level node codes, second-level node codes, enterprise codes, classification and logistics codes, and the logistics metadata model attribute comprises logistics sheet codes, logistics business types, affiliated areas and logistics states;

the ship material metadata model comprises a ship material identification code and ship material metadata model attributes; the ship material identification code comprises a top node code, a second node code, an enterprise code, classification, an intra-enterprise classification material code and a sequence number, and the ship material metadata model attribute comprises a material identification code, a material list, a production enterprise name and a classification society;

the tray metadata model comprises a tray identification code and tray metadata model attributes; the tray identification codes comprise top node codes, second node codes, enterprise codes, tray classification codes and tray numbers, and the tray metadata model attributes comprise ship numbers, tray names, professions, designers, auditors and issuing dates.

In further embodiments, the top level node code, the secondary node code, and the enterprise code are generated and validated by the identity resolution secondary node.

In a second aspect, the present invention provides a ship material supply chain purchase management method, the method comprising the steps of:

the method comprises the steps of externally butting a design drawing intermediate library, acquiring tray data from the design drawing intermediate library, and carrying out overall process management on materials required by ship production according to the tray data; the materials required by the ship production comprise standard components and non-standard components;

basic information of standard components and non-standard components is obtained from the tray data, and real-time positioning tracking and full supply chain management are carried out on material purchasing data of both sides of a material supply enterprise according to the basic information;

and (3) carrying out external butt joint on the identification analysis secondary node, respectively carrying out identification coding on the tray data, the standard parts and the non-standard parts in a supply chain based on an identification analysis coding system to obtain corresponding identification coding data, and inputting the identification coding data into the identification analysis secondary node for registration.

In a third aspect, the present invention also provides a computer device, including a processor and a memory, where the processor is connected to the memory, the memory is used to store a computer program, and the processor is used to execute the computer program stored in the memory, so that the computer device performs steps for implementing the method.

In a fourth aspect, the present invention also provides a computer readable storage medium having stored therein a computer program which when executed by a processor performs the steps of the above method.

The invention provides a ship material supply chain purchasing management system, a method, equipment and a medium, wherein the pallet management system realizes the overall process management from design data issuing to production receiving in enterprises through material identification codes and pallet identification codes; the material supply chain management system realizes purchasing data interaction oriented to both material supply parties through material identification codes; the enterprise coding management center system is connected with the ship industry identification analysis secondary node in a butt joint mode, and an information interaction link of ship industry material data is established based on the identification analysis coding system. Compared with the prior art, the system utilizes the identification analysis coding system to realize the intelligent and full-flow management of the processes of the design issuing of the ship production materials, the purchase of the materials, the arrival and warehouse entry, the production and the leading, and the like, thereby improving the ship production efficiency and the cooperation efficiency among enterprises and reducing the fund occupation caused by the stock backlog of the enterprises.

Drawings

FIG. 1 is a block diagram of a ship material supply chain purchase management system provided by an embodiment of the invention;

FIG. 2 is a schematic diagram of a process for purchasing management of a supply chain of marine material according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of vendor metadata model identification encoding rules provided by an embodiment of the present invention;

FIG. 4 is a schematic diagram of a coding rule of a logistic metadata model identifier according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a marine material metadata model identification coding rule provided by an embodiment of the present invention;

FIG. 6 is a schematic diagram of a tray metadata model identifier coding rule provided by an embodiment of the present invention;

FIG. 7 is a schematic flow chart of a method for purchasing management of a ship material supply chain according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a computer device according to an embodiment of the present invention.

Detailed Description

The following examples are given for the purpose of illustration only and are not to be construed as limiting the invention, including the drawings for reference and description only, and are not to be construed as limiting the scope of the invention as many variations thereof are possible without departing from the spirit and scope of the invention.

Referring to fig. 1, an embodiment of the present invention provides a ship material supply chain purchase management system, as shown in fig. 1, including: a pallet management system 11, a material supply chain management system 12 and an enterprise code management center system 13; the pallet management system 11 is externally abutted to the design drawing intermediate library 10, the material supply chain management system 12 is internally abutted to the pallet management system 11, the enterprise code management center system 13 is internally abutted to the pallet management system 11 and the material supply chain management system 12, and the enterprise code management center system 13 is externally abutted to the identification analysis secondary node 14.

It should be noted that, for system development, the embodiment preferably adopts a design rule based on the J2EE specification; designing the business process and each business object by adopting an object-oriented design method; meanwhile, based on Spring Boot architecture, the coupling degree between modules is reduced by adopting a micro-service architecture; by adopting a system decomposition from business to system abstraction method from technology to technology, the technical framework mainly uses technical components such as Spring Boot, dis, log, exception, event, remote call and the like, the database is expanded through Mysql Galera Cluster multi-master copy mode+HAproxy+keepalive architecture, the business server is integrated through Tomcat, the front end realizes the horizontal capacity expansion of the business server through Nginx load balancing, the business component layer mainly comprises middle result calculation service inquiry, basic data management, appointed condition management, cause triggering, data pushing, authority management and data synchronization, in the embodiment, the cache server adopts dis, stores hot-spot high hit basic data, the ORM tool uses MyBatis Plus, and the front end development framework adopts jQuery and AJAX framework+ bootstrap, react, H5.

In one embodiment, the pallet management system 11 is configured to externally dock a design drawing intermediate library, obtain pallet data from the design drawing intermediate library, and perform overall process management on materials required for ship production according to the pallet data; the materials required for the production of the ship comprise standard components and non-standard components.

In this embodiment, the pallet management system includes a pallet data receiving module, a standard component management system, a non-standard component management system, and a pallet receiving module; the standard component management system and the non-standard component management system are both connected with the tray data receiving module and the tray receiving module, the standard component management system comprises a standard component purchasing and transferring module and a standard component material transferring module, and the non-standard component management system comprises a non-standard component outer cooperation module and a non-standard component to goods checking and accepting module;

the tray data receiving module is used for receiving the tray data acquired from the design drawing intermediate library, selecting standard components and non-standard components from the tray data, and respectively transmitting the standard components and the non-standard components to a corresponding standard component management system and a corresponding non-standard component management system;

the standard part purchase transfer module is used for transferring the standard part selected according to the tray data to the material supply chain management system for standard part material purchase management;

the standard component material transfer module is used for receiving standard components purchased and accepted through the material supply chain management system;

The non-standard part export module is used for selecting a non-standard part according to the pallet data, and after confirming the export manufacturer and the receiving period according to the selected non-standard part, handing over a non-standard part order to the material supply chain management system for non-standard part production management;

the non-standard part to goods checking and accepting module is used for receiving and carrying out logistics distribution on the non-standard parts through the material supply chain management system, carrying out goods checking and accepting on the distributed non-standard parts, and after the distributed non-standard parts are qualified in goods checking and accepting, sending the non-standard parts qualified in checking and accepting to the tray receiving module;

the tray receiving module is used for carrying out tray nesting checking on the received standard components with qualified acceptance sent by the standard component material transfer module and the non-standard components with qualified acceptance sent by the non-standard component to goods acceptance module, and carrying out receiving reservation, tray delivery and goods receiving items of a production department after the tray nesting checking is passed.

Specifically, as shown in fig. 2, the pallet management system in this embodiment mainly includes a production management department to implement pallet management, which covers functional modules of pallet data receiving, non-standard part outsourcing, non-standard part to goods checking and accepting, standard part handing over, material handing over, pallet receiving, etc., and the main application objects of the pallet management system are the pallet management department and the production receiving department inside the enterprise, which obtain pallet data through butting a design drawing intermediate library, so as to implement overall process management from design issue to production receiving of materials required for ship production, improve cooperative efficiency and material management fineness between ship industry enterprises, provide a professional management platform for enterprises, and after the pallet management system obtains pallet data from the design drawing intermediate library, synchronously transmit information to the enterprise code management center system, so that the enterprise code management center system supplements relevant attribute values according to corresponding metadata models in the following business process advancing process.

In one embodiment, the material supply chain management system 12 is configured to obtain basic information of standard components and non-standard components from the pallet management system, and perform real-time location tracking and full supply chain management on material purchase data of both material supply enterprises based on the basic information.

In this embodiment, the supply chain management system includes a standard supply chain management system and a non-standard supply chain management system;

the standard component supply chain management system comprises a material provider selection module, a receiving period confirmation module, a logistics tracking module and a standard component to goods acceptance module which are connected in sequence; the standard component to goods acceptance module is further connected with the standard component material transfer module;

the non-standard part supply chain management system comprises an order confirmation module, a production node feedback module and a logistics distribution planning module which are sequentially connected; wherein, order confirmation module still connects the nonstandard spare export module, logistics distribution planning module still connects the nonstandard spare to goods inspection module.

Specifically, the material supply chain management system in this embodiment is mainly based on identification codes to get through the information link of purchasing progress on the supply chain, and covers the functional modules of order confirmation, production node feedback, logistics distribution planning, material supplier selection, receipt confirmation, logistics tracking, goods acceptance and the like.

Because the data format related to the ship material supply chain is complex, structured data and unstructured data exist, if the interconnection of the data is to be realized, a standard metadata model needs to be established, so that the characteristics of source data are described by using a format description table of the metadata model, and the data in data entities in different enterprise informatization systems are compatible, so that the different enterprise informatization systems output a universal standard format, and the database is convenient to read, write and process.

In one embodiment, the enterprise code management center system 13 is configured to externally dock the identifier analysis secondary node, perform identifier coding on the pallet data, the standard component and the non-standard component, which are obtained from the pallet management system, based on an identifier analysis coding system, to obtain corresponding identifier coding data, and input the identifier coding data into the identifier analysis secondary node for registration.

In this embodiment, the enterprise code management center system includes a standard component identification coding module, a non-standard component identification coding module, a tray identification coding module, a metadata model management module, and a metadata model management module;

The tray identification coding module is used for carrying out identification coding on the tray data acquired from the tray management system, generating tray identification coding data, and supplementing attribute values of corresponding metadata models according to the pre-constructed metadata models in the business process advancing process;

the standard component identification coding module is used for carrying out identification coding on the standard component selected from the tray management system based on an identification analysis coding system, generating standard component identification coding data, linking the tray identification coding data to obtain standard component-tray identification coding data, and inputting the standard component-tray identification coding data into the identification analysis secondary node for registration; the method is also used for supplementing attribute values of corresponding metadata models according to the pre-constructed metadata models in the business process advancing process;

the non-standard part identification coding module is used for carrying out identification coding on the non-standard part selected from the tray management system based on an identification analysis coding system, generating non-standard part identification coding data, linking the tray identification coding data to obtain non-standard part-tray identification coding data, and inputting the non-standard part-tray identification coding data into the identification analysis secondary node for registration; the method is also used for supplementing attribute values of corresponding metadata models according to the pre-constructed metadata models in the business process advancing process;

And the metadata model management module is used for managing each metadata model based on data generated by business processes in the tray management system and the material supply chain management system.

Specifically, the enterprise coding management center system in this embodiment encodes the trays, standard components and non-standard components in the ship material supply chain based on the identification analysis coding system, and inputs corresponding identification coding data into the ship industry identification analysis secondary node registration.

In this embodiment, the metadata model is divided into two parts, prefix and suffix, and the middle is divided by "/"; the prefix is formed by three parts of digital codes, the first part uses 2-bit numbers to prescribe a national top-level node, and the prefix is distributed by an industrial information part; the second part is coded by a 3-bit number specified secondary node and is distributed by a national top node; the third part uses 6 digits to define enterprise codes, and the enterprise codes are distributed by an industry secondary node and are self-increasing digital numbers which are automatically generated according to the sequence of enterprise application registration; the suffix is self-distributed by enterprise users of the identification analysis node, and the longest is 256 characters, wherein the forefront 2 bits are classified codes, digital codes are adopted, the types of articles are specified, and the enterprise users code according to the classification standards of the articles of the secondary nodes; the other codes are formulated by the original coding system of the enterprise or by the enterprise itself in combination with the characteristics and requirements of the industry; it should be noted that, the principle that the metadata model should be formulated in this embodiment is:

Uniqueness principle: one metadata model corresponds to a class of identification objects, and one identification object can only adopt a unique metadata model. There is no duplication and crossover relationship between the models.

Consistency principle: all metadata models in the secondary nodes remain consistent in terms of expression.

Semantic principle: the metadata model embodies certain semantic features and describes the content of the attribute description.

The expansibility principle: the model should have extensibility, and attribute fields may be added or modified depending on business development requirements and identification hierarchy development.

According to metadata establishment principles and data analysis related to a material supply chain in the ship industry, the embodiment constructs 4 types of metadata models which respectively comprise a supplier metadata model, a logistics metadata model, a ship material metadata model and a tray metadata model.

As shown in fig. 3, the vendor metadata model includes vendor identification codes and vendor metadata model attributes; the provider identification code comprises a top level node code, a second level node code, an enterprise code, a classification and a provider code, wherein the top level node code, the second level node code and the enterprise code are generated and confirmed by the identification analysis second level node, in the embodiment, the classification comprises two digits, which can be numbers or letters, and the provider code comprises 6 digits, nonsense codes and increases in sequence according to the management requirements of the provider of the enterprise; the vendor metadata model attributes include vendor code, vendor type, vendor qualification, etc., it should be noted that, those skilled in the art can customize according to the actual situation of the enterprise, and are not limited to the present invention, and table 1 is a vendor metadata model attribute, and table 1 is as follows:

TABLE 1

Numbering device	Metadata attribute names	Data instance
			1	Vendor coding	HW000001
2	Vendor type	Raw materials
			3	Vendor qualification	First level security manufacture
4	The region of	South China
			5	Product quality	Good (good)
6	Cost of product	Price and historical average price
			7	Delivery of	Timely delivery, product integrity, and material integrity
8	Techniques for	Technical ability
			9	Service	Service and time-efficient
…	…	…

As shown in fig. 4, the logistics metadata model includes a logistics identification code and logistics metadata model attributes; the logistics identification code comprises a top node code, a second node code, an enterprise code, a classification and a logistics code, wherein the top node code, the second node code and the enterprise code are generated and confirmed by the identification analysis second node, and in the embodiment, the classification comprises two digits, which can be numbers or letters, and the enterprise can carry out self definition according to the management requirement of an enterprise provider; the vendor code comprises a 4-digit number, a nonsense code, and is incremented in sequence; the physical distribution metadata model attribute comprises physical distribution list code, physical distribution business type, belonged area, physical distribution state and other attributes, and it is to be noted that the physical distribution metadata model attribute can be customized by a person skilled in the art according to the actual condition of an enterprise and is not limited to the physical distribution metadata model attribute; table 2 is a logistic metadata model attribute, table 2 is as follows:

TABLE 2

As shown in fig. 5, the ship material metadata model includes a ship material identification code and ship material metadata model attributes; the ship material identification code comprises a top node code, a second node code, an enterprise code, a classification, an intra-enterprise classification material code and a sequence number, wherein the top node code, the second node code and the enterprise code are generated and confirmed by the identification analysis second node, in the embodiment, the material classification code adopts '01', the intra-enterprise classification material code adopts six-bit digits to represent three classes of classification of major class, middle class and minor class, each class of 2-bit digits, and the minor class name is a material name (in a classification system, the material name is not repeatable); the sequence number is automatically generated by a computer system according to different 'material names + model specifications + standard number drawing numbers + materials' in the process of writing data into a material standard library, and the number of bits is determined by enterprises according to actual needs without specific limitation; the ship material metadata model attribute comprises attribute fields such as material identification codes, material lists, manufacturing enterprise names, class agencies and the like; table 3 is a logistic metadata model attribute, table 3 is as follows:

TABLE 3 Table 3

Numbering device	Metadata attribute names	Data instance
			1	Material identification code	xxx
2	Material name	Bolt
			3	Name of manufacturing company	xxx
4	Ship class society	xxx
			5	Tray number	xxx
6	Model number	xxx
			7	Specification of specification	xxx
8	Material of material	xxx
			9	Measuring unit	xxx
10	Species of type	xxx
			11	Purchaser code	xxx
12	Storage location	xxx
			…	…	…

As shown in fig. 6, the tray metadata model includes a tray identification code and tray metadata model attributes; the tray identification code comprises a top node code, a second node code, an enterprise code, a tray classification code and a tray number, wherein the top node code, the second node code and the enterprise code are generated and confirmed by the identification analysis second node, in the embodiment, the tray classification code is represented by two-bit letters, the tray classification code is represented by 15-bit digital mixed letters, and the enterprise internal tray code is applied; the tray metadata model attribute comprises attribute fields such as a ship number, a tray name, a professional, a designer, an auditor, a release date and the like, the table 4 is a logistics metadata model attribute, and the table 4 is as follows:

TABLE 4 Table 4

Numbering device	Metadata attribute names	Data instance
			1	Ship number	H1221
2	Tray number	603FF1201CA
			3	Tray name	603 section iron outfitting mounting tray table
4	Belongs to the profession	Outfitting
			5	Designer person	Forest xx
6	Auditing personnel	Pengxx process
			7	Issue date	2022-10-12
8	Date of receipt	2022-10-15
			…	…	…

The embodiment of the invention provides a ship material supply chain purchasing management system, which is used for realizing the overall process management from design issuing to production receiving of materials required by ship production by butting a design drawing intermediate library through a tray management system; the information interaction link management between enterprises is realized through a material supply chain management system; and realizing enterprise code management through an enterprise code management center. Compared with the prior art, the method and the device have the advantages that the tray management system, the material supply chain management system and the enterprise code management center system are used for establishing and opening up the full data link from the design of the ship materials to the production and reception, so that the effective coordination of data among enterprises is realized, the collaborative development of the enterprises is guided, the whole production and purchasing process of effectively managing and monitoring the ship materials can be realized, and the enthusiasm of the enterprises is fully mobilized.

In one embodiment, as shown in fig. 7, an embodiment of the present invention provides a ship material supply chain purchase management method, which includes the steps of:

s1, externally butting a design drawing intermediate library, acquiring tray data from the design drawing intermediate library, and carrying out overall process management on materials required by ship production according to the tray data; the materials required by the ship production comprise standard components and non-standard components;

S2, acquiring basic information of standard components and non-standard components from the tray data, and carrying out real-time positioning tracking and full supply chain management on material purchase data of both sides of a material supply enterprise according to the basic information;

s3, the external butt joint identification analysis secondary node performs identification coding on the tray data, the standard parts and the non-standard parts in a supply chain based on an identification analysis coding system to obtain corresponding identification coding data, and the identification coding data is input into the identification analysis secondary node to be registered.

For specific limitations regarding a method for purchasing management of a ship material supply chain, reference may be made to the above limitation regarding a system for purchasing management of a ship material supply chain, and details thereof will not be repeated here. Those of ordinary skill in the art will appreciate that the various modules and steps described in connection with the embodiments disclosed herein may be implemented as hardware, software, or a combination of both. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the solution. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

It should be noted that, the sequence number of each process does not mean that the execution sequence of each process is determined by the function and the internal logic, and should not limit the implementation process of the embodiment of the present application.

The embodiment of the invention provides a ship material supply chain purchasing management method, which comprises the steps of acquiring pallet data from a design drawing intermediate library, carrying out overall process management on materials required by ship production according to the pallet data, carrying out real-time positioning tracking and overall supply chain management on the material purchasing data of both sides of a material supply enterprise, realizing enterprise coding management by utilizing an identification analysis coding system, and unifying identification codes in different systems. By adopting the technical scheme provided by the embodiment of the invention, the automatic management of the full data link from the design issue to the production and the pilot of the ship materials is realized, the ship production efficiency is obviously improved, the unnecessary capital occupation caused by the stock backlog of enterprises is reduced, and the labor and material cost is reduced.

FIG. 8 is a diagram of a computer device including a memory, a processor, and a transceiver connected by a bus, according to an embodiment of the present invention; the memory is used to store a set of computer program instructions and data and the stored data may be transferred to the processor, which may execute the program instructions stored by the memory to perform the steps of the above-described method.

Wherein the memory may comprise volatile memory or nonvolatile memory, or may comprise both volatile and nonvolatile memory; the processor may be a central processing unit, a microprocessor, an application specific integrated circuit, a programmable logic device, or a combination thereof. By way of example and not limitation, the programmable logic device described above may be a complex programmable logic device, a field programmable gate array, general purpose array logic, or any combination thereof.

In addition, the memory may be a physically separate unit or may be integrated with the processor.

It will be appreciated by those of ordinary skill in the art that the structure shown in fig. 8 is merely a block diagram of some of the structures associated with the present application and is not limiting of the computer device to which the present application may be applied, and that a particular computer device may include more or fewer components than shown, or may combine certain components, or have the same arrangement of components.

In one embodiment, an embodiment of the present invention provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, performs the steps of the above-described method.

The ship material supply chain purchase management system utilizes the identification analysis coding system to realize full-flow automatic management of ship production material issuing, material purchase (including standard component purchase and non-standard component customization), arrival and warehousing and production lead, improves the operation efficiency of the whole ship material supply chain, and realizes traceability of ship production materials.

In the above embodiments, it may be implemented in whole or in part by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, produces a flow or function in accordance with embodiments of the present invention, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable apparatus. The computer instructions may be stored in a computer-readable storage medium or transmitted from one computer-readable storage medium to another computer-readable storage medium, for example, the computer instructions may be transmitted from one website, computer, server, or data center to another website, computer, server, or data center by a wired (e.g., coaxial cable, fiber optic, digital subscriber line), or wireless (e.g., infrared, wireless, microwave, etc.). The computer readable storage medium may be any available medium that can be accessed by a computer or a data storage device such as a server, data center, etc. that contains an integration of one or more available media. The usable medium may be a magnetic medium (e.g., floppy disk, hard disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., SSD), etc.

Those skilled in the art will appreciate that implementing all or part of the above described embodiment methods may be accomplished by way of a computer program stored on a computer readable storage medium, which when executed, may comprise the steps of embodiments of the methods described above.

The foregoing examples represent only a few preferred embodiments of the present application, which are described in more detail and are not thereby to be construed as limiting the scope of the invention. It should be noted that modifications and substitutions can be made by those skilled in the art without departing from the technical principles of the present invention, and such modifications and substitutions should also be considered to be within the scope of the present application. Therefore, the protection scope of the patent application is subject to the protection scope of the claims.

Claims (10)

1. A ship material supply chain procurement management system, comprising: a tray management system, a material supply chain management system and an enterprise code management center system;

the tray management system is used for externally butting the design drawing intermediate library, acquiring tray data from the design drawing intermediate library and carrying out overall process management on materials required by ship production according to the tray data; the materials required by the ship production comprise standard components and non-standard components;

The material supply chain management system is used for acquiring basic information of standard components and non-standard components from the tray management system, and carrying out real-time positioning tracking and full supply chain management on material purchase data of both material supply enterprises based on the basic information;

the enterprise code management center system is used for externally butting the identification analysis secondary node, respectively carrying out identification coding on the tray data, the standard component and the non-standard component which are acquired from the tray management system based on the identification analysis coding system to obtain corresponding identification coding data, and inputting the identification coding data into the identification analysis secondary node for registration.

2. A ship supply chain procurement management system according to claim 1, characterized by: the tray management system comprises a standard component management system, a non-standard component management system and a tray leading module; the standard component management system comprises a standard component purchase transfer module and a standard component material transfer module, and the non-standard component management system comprises a non-standard component export module and a non-standard component to goods acceptance module;

the standard part purchase transfer module is used for transferring the standard part selected according to the tray data to the material supply chain management system for standard part material purchase management;

The standard component material transfer module is used for receiving standard components purchased and accepted through the material supply chain management system;

the non-standard part export module is used for selecting a non-standard part according to the pallet data, and after confirming the export manufacturer and the receiving period according to the selected non-standard part, handing over a non-standard part order to the material supply chain management system for non-standard part production management;

the non-standard part to goods checking and accepting module is used for receiving and carrying out logistics distribution on the non-standard parts through the material supply chain management system, carrying out goods checking and accepting on the distributed non-standard parts, and after the distributed non-standard parts are qualified in goods checking and accepting, sending the non-standard parts qualified in checking and accepting to the tray receiving module;

the tray receiving module is used for carrying out tray nesting checking on the received standard components with qualified acceptance sent by the standard component material transfer module and the non-standard components with qualified acceptance sent by the non-standard component to goods acceptance module, and carrying out receiving reservation, tray delivery and goods receiving items of a production department after the tray nesting checking is passed.

3. A ship supply chain procurement management system according to claim 2, characterized by: the material supply chain management system comprises a standard part supply chain management system and a non-standard part supply chain management system;

The standard component supply chain management system comprises a material provider selection module, a receiving period confirmation module, a logistics tracking module and a standard component to goods acceptance module which are connected in sequence; the standard component to goods acceptance module is further connected with the standard component material transfer module;

the non-standard part supply chain management system comprises an order confirmation module, a production node feedback module and a logistics distribution planning module which are sequentially connected; wherein, order confirmation module still connects the nonstandard spare export module, logistics distribution planning module still connects the nonstandard spare to goods inspection module.

4. A ship supply chain procurement management system according to claim 1, characterized by: the enterprise code management center system comprises a standard component identification coding module, a non-standard component identification coding module, a tray identification coding module and a metadata model management module;

the tray identification coding module is used for carrying out identification coding on the tray data acquired from the tray management system, generating tray identification coding data, and supplementing attribute values of corresponding metadata models according to the pre-constructed metadata models in the business process advancing process;

The standard component identification coding module is used for carrying out identification coding on the standard component selected from the tray management system based on an identification analysis coding system, generating standard component identification coding data, linking the tray identification coding data to obtain standard component-tray identification coding data, and inputting the standard component-tray identification coding data into the identification analysis secondary node for registration; the method is also used for supplementing attribute values of corresponding metadata models according to the pre-constructed metadata models in the business process advancing process;

the non-standard part identification coding module is used for carrying out identification coding on the non-standard part selected from the tray management system based on an identification analysis coding system, generating non-standard part identification coding data, linking the tray identification coding data to obtain non-standard part-tray identification coding data, and inputting the non-standard part-tray identification coding data into the identification analysis secondary node for registration; the method is also used for supplementing attribute values of corresponding metadata models according to the pre-constructed metadata models in the business process advancing process;

and the metadata model management module is used for managing each metadata model based on data generated by business processes in the tray management system and the material supply chain management system.

5. A ship supply chain procurement management system according to claim 4, characterized by: the metadata models include a vendor metadata model, a logistics metadata model, a ship material metadata model, and a tray metadata model.

6. A ship supply chain procurement management system according to claim 5, characterized by:

the vendor metadata model includes vendor identification codes and vendor metadata model attributes; wherein the vendor identification code comprises a top level node code, a second level node code, an enterprise code, a classification, and a vendor code, and the vendor metadata model attribute comprises a vendor code, a vendor type, and a vendor qualification;

the logistics metadata model comprises a logistics identification code and logistics metadata model attributes; the logistics identification codes comprise top-level node codes, second-level node codes, enterprise codes, classification and logistics codes, and the logistics metadata model attribute comprises logistics sheet codes, logistics business types, affiliated areas and logistics states;

the ship material metadata model comprises a ship material identification code and ship material metadata model attributes; the ship material identification code comprises a top node code, a second node code, an enterprise code, classification, an intra-enterprise classification material code and a sequence number, and the ship material metadata model attribute comprises a material identification code, a material list, a production enterprise name and a classification society;

The tray metadata model comprises a tray identification code and tray metadata model attributes; the tray identification codes comprise top node codes, second node codes, enterprise codes, tray classification codes and tray numbers, and the tray metadata model attributes comprise ship numbers, tray names, professions, designers, auditors and issuing dates.

7. A ship supply chain procurement management system according to claim 6, characterized by: the top level node code, the secondary node code, and the enterprise code are generated and validated by the identity resolution secondary node.

8. A method of shipping supply chain procurement management, the method comprising the steps of:

the method comprises the steps of externally butting a design drawing intermediate library, acquiring tray data from the design drawing intermediate library, and carrying out overall process management on materials required by ship production according to the tray data; the materials required by the ship production comprise standard components and non-standard components;

basic information of standard components and non-standard components is obtained from the tray data, and real-time positioning tracking and full supply chain management are carried out on material purchasing data of both sides of a material supply enterprise according to the basic information;

And (3) carrying out external butt joint on the identification analysis secondary node, respectively carrying out identification coding on the tray data, the standard parts and the non-standard parts in a supply chain based on an identification analysis coding system to obtain corresponding identification coding data, and inputting the identification coding data into the identification analysis secondary node for registration.

9. A computer device, characterized by: comprising a processor and a memory, the processor being connected to the memory, the memory being for storing a computer program, the processor being for executing the computer program stored in the memory to cause the computer device to perform the method of claim 8.

10. A computer-readable storage medium, characterized by: the computer readable storage medium has stored therein a computer program which, when executed, implements the method of claim 8.

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