CN112766857A - Intelligent warehouse management platform, system and method - Google Patents

Abstract

The invention discloses an intelligent warehousing management platform, system and method. The intelligent warehousing management platform comprises a raw material purchase order management module for managing raw material purchase orders; the raw material inventory management module is used for managing the position information of the raw materials; the raw material sorting management module is used for recommending the position of the raw material based on the position information of the raw material; the raw material delivery order management module is used for managing information of the raw materials from a delivery position of the warehouse to a delivery destination position; the finished product delivery management module is used for managing delivery information of finished products; the processing and acceptance management module is used for managing the product information prepared by a third party; the virtual management module is used for managing the information of the residual raw materials; and the set raw material replacement management module is used for managing the waste information of the set raw materials. The intelligent warehousing management platform provided by the invention improves the service efficiency and meets the personalized requirements.

Description

Intelligent warehouse management platform, system and method

Technical Field

The embodiment of the invention relates to the technical field of warehousing management, in particular to an intelligent warehousing management platform, system and method.

Background

Along with the development of enterprises, the requirements of the enterprises are also continuously improved, wherein the requirements of the enterprises are more and more important in cooperation with the improvement of the factory manufacturing capability of the enterprises.

At present, a large number of intelligent warehousing management platforms appear for realizing intelligent warehousing management, but the existing intelligent warehousing management platforms are difficult to meet the increasing personalized requirements, the interconnection of information of each node in a factory has defects, and the service efficiency is low.

Disclosure of Invention

The invention provides an intelligent warehousing management platform, system and method, which improve the service efficiency and can meet the personalized requirements of users.

In a first aspect, an embodiment of the present invention provides an intelligent warehousing management platform, including:

the raw material purchase order management module is used for managing a raw material purchase order;

the raw material inventory management module is used for managing the position information of the raw materials stored in the warehouse;

the raw material sorting management module is used for recommending the position of the raw material in the raw material delivery order based on the position information stored in the warehouse by the raw material;

the raw material delivery order management module is used for managing information of raw materials in the raw material delivery order from a delivery position of the warehouse to a delivery destination position;

the finished product delivery management module is used for managing delivery information of finished products;

the processing and acceptance management module is used for managing the product information prepared by a third party;

the virtual single management module is used for managing the information of the residual raw materials on the production line;

and the set raw material replacement management module is used for managing the waste information of the set raw materials obtained on the production line.

In a second aspect, an embodiment of the present invention further provides an intelligent warehouse management system, including: the intelligent warehouse management system comprises an intelligent warehouse management platform, a scanning device, a display device and an indicating device;

the scanning device is used for scanning the identification information of the raw material or the finished product;

the display device is used for displaying the information of the raw materials required by each production line;

and the indicating device is arranged on the goods shelf where the raw materials are located and used for prompting the positions of the raw materials in the raw material delivery order.

In a third aspect, an embodiment of the present invention further provides an intelligent warehouse management method, including:

managing the raw material purchase order through a raw material purchase order management module;

managing the position information of the raw materials stored in the warehouse through a raw material inventory management module;

recommending, by a raw material picking management module, a location of a raw material in a raw material delivery order based on location information of the raw material stored in a warehouse;

managing, by a raw material shipment order management module, information of raw materials in a raw material shipment order from a shipment location of a warehouse to a destination location of delivery;

managing delivery information of the finished product through a finished product delivery management module;

managing the product information provided for the third party preparation through a processing and acceptance management module;

managing the information of the residual raw materials on the production line through a virtual single management module;

and managing waste information of the set raw materials obtained on the production line through a set raw material replacement management module.

The embodiment of the invention realizes the recording, query and monitoring of the raw material purchase order, the position information of raw materials stored in a warehouse, the delivery position of raw materials from the warehouse, the raw material distribution position, the delivery information of finished products, product information prepared by a third party, residual raw material information and waste information of set raw materials by a raw material purchase order management module, a raw material inventory management module, a raw material sorting management module, a raw material delivery order management module, a finished product delivery management module, a processing and accepting management module, a virtual single management module and a set raw material replacement management module of an intelligent warehousing management platform, solves the problems of island information, poor whole-process monitoring capability, low service efficiency, high labor cost and incapability of meeting the personalized requirements of users caused by relative independence of various links of warehousing management in the prior art, the controllable observability of the whole process of warehousing, distribution of raw materials and preparation and distribution of finished products is improved, the efficient control of the raw materials and the finished products is realized, the service efficiency is improved, and the individual requirements on an intelligent warehousing management platform are met. In addition, this scheme can also recommend the raw and other materials position in the raw and other materials delivery order, is convenient for look for raw and other materials, promotes warehouse keeper picking efficiency.

Drawings

Fig. 1 is a schematic diagram of an intelligent warehouse management platform according to an embodiment of the present invention;

fig. 2 is a schematic diagram of an intelligent warehouse management platform according to a second embodiment of the present invention;

fig. 3 is a schematic structural diagram of a finished product library management module according to a second embodiment of the present invention;

fig. 4 is a schematic diagram of an operation flow of an intelligent warehousing platform according to a second embodiment of the present invention;

fig. 5 is a schematic diagram of an intelligent warehouse management system according to a third embodiment of the present invention;

fig. 6 is a flowchart of a smart warehouse management method according to a fourth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

In the embodiment of the invention, under the framework of information intercommunication and interconnection, the intelligent warehousing management platform adopts a development mode with separated front and back ends and a micro-service architecture mode, so that the linear expansion of the functions of the intelligent warehousing management platform is realized, and single-point faults are effectively avoided. In addition, the intelligent warehousing management platform adopts a high-reliability high-performance message queue caching technology to carry out real-time visual digital monitoring and operation on production and delivery, and realizes the management of each flow of business through a containerization deployment technology, an integrated tool and the like. Meanwhile, the intelligent warehousing management platform can also be added with a processing and contracting business function on the basis of the existing warehousing management technology. Specifically, the front end in the development mode of front-end and back-end separation adopted in the technical scheme of the invention adopts node. Compared with the prior Web (World Wide Web) project, the method has the advantages of improving development efficiency, reducing coupling of software design and improving the capability of processing complex services. And the design mode of the micro-service architecture can realize the mutual calling between the micro-services through the REST interface. According to the technical scheme, container deployment can be achieved by using a docker (open source application container engine), and for example, services which are made into mirror images can be deployed on a docker server through a docker container. Compared with the common PAAS (Platform As a Service), the Platform eliminates the online and offline environmental difference, is convenient for one-key deployment of projects, and improves the utilization rate of server resources. The REDIS caching technology in the high-reliability and high-performance message queue caching technology is adopted, so that the fast reading and writing are realized, and rich data types are supported. REDIS (Remote Dictionary service) locks are used to handle concurrency issues, thereby improving code performance and security. The smart warehouse management platform may be a cloud platform, and the cloud platform may be configured in a server.

Fig. 1 is a schematic diagram of an intelligent warehousing management platform according to an embodiment of the present invention, which is applicable to intelligent management of warehousing resources. As shown in fig. 1, the smart warehouse management platform 100 includes: a raw material purchase order management module 101, a raw material inventory management module 102, a raw material sorting management module 103, a raw material shipment order management module 104, a finished product shipment management module 105, a processing acceptance management module 106, a virtual single management module 107, and a set raw material replacement management module 108.

A raw material purchase order management module 101, configured to manage a raw material purchase order. The raw material purchase order may be a purchase order for raw materials generated by the intelligent warehousing management platform 100 according to production requirements, or a purchase order for raw materials created by a warehouse manager according to production requirements. Specifically, the raw material purchase order management module 101 may record, upload, monitor, and query data in the raw material purchase order.

The raw material inventory management module 102 is configured to manage information on locations where raw materials are stored in the warehouse. The position information may be data representing the position of the raw material, and is used for searching the raw material. Accordingly, after the location information of the raw materials in the warehouse is determined, the raw material inventory management module 102 may record the location information of the raw materials, and the raw material inventory management module 102 may query the location information of the raw materials. The raw material stock management module 102 can be used for inquiring the position information of the raw material, so that the raw material can be conveniently searched.

The raw material sorting management module 103 is configured to recommend a location of the raw material in the raw material delivery order based on the location information stored in the warehouse. Wherein the raw material delivery order may be a document sent to the raw material processing department. For example, a raw material shipping order may include location information to which the raw material is sent, recipient information, the type of raw material, and the number of raw materials. Specifically, when raw materials need to be processed, the smart warehouse management platform 100 may generate a raw material shipment order or create a raw material shipment order by a warehouse manager. The raw material sorting management module 103 may recommend the location information of the raw materials in the raw material delivery order based on the location information of the raw materials stored in the warehouse, so as to quickly locate and find the raw materials in the raw material delivery order.

A raw material shipment order management module 104 for managing information of raw materials in a raw material shipment order from a shipment location of a warehouse to a destination location of delivery. The delivery location may be, among other things, the location of the warehouse and the shelves where the raw materials in the raw material delivery order are located. The destination location may be a delivery location for the raw material in the raw material delivery order. For example, the destination location may include, but is not limited to, a location at which the raw material in the raw material shipping order is processed. Specifically, the raw material shipment order management module 104 may record, query and monitor the location information of the warehouse where the raw material in the raw material shipment order is located and the location information of the destination location where the raw material in the raw material shipment order is delivered.

And a finished product delivery management module 105, configured to manage delivery information of finished products. The shipping information may be data generated by the intelligent warehouse management platform 100 before the finished goods are shipped and associated with the shipped finished goods. For example, the shipping information may include, but is not limited to, warehouse location information for storing the finished product, location information for the consignee of the finished product, the name of the finished product, the quantity of the finished product, and the shipping time of the finished product. Accordingly, the finished product delivery management module 105 may record, query and monitor the delivery information of the finished product, so as to track the finished product.

And the processing and soliciting management module 106 is used for managing the product information prepared by the third party. Wherein the third party may be a unit or department that processes the raw material into finished products. The product information may be information provided to a third party for a finished product that the third party is required to prepare. The product information may include, but is not limited to, information such as the number of finished products that need to be prepared by a third party and the type of finished products. Specifically, the processing and solicitation management module 106 of the smart warehousing management platform 100 can record, query and monitor product information provided to a third party for preparation.

And the virtual bill management module 107 is used for managing the information of the residual raw materials on the production line. Wherein, the remaining raw material information may be related data of the raw material remaining after the preparation of the finished product is completed. For example, the remaining raw material information may include, but is not limited to, the number of remaining raw materials, the categories of remaining raw materials, and location information of a production line that produces the remaining raw materials, etc. Accordingly, when the product generates the remaining raw materials during the manufacturing process, the virtual single management module 107 can record, query and monitor the information of the remaining raw materials on the production line.

And a set raw material replacement management module 108 for managing waste information of the set raw materials obtained on the production line. The raw material may be at least one type of raw material preset according to needs, for example, the raw material may include a metal compound or an organic compound having a recycling value. The waste information may be information of waste generated during the preparation of the finished product. For example, the scrap information may include, but is not limited to, the name of the scrap, the quality of the scrap, and location information of the production line in which the scrap is produced, etc. Specifically, when the waste of the set raw material is generated on the production line, the set raw material replacement management module 108 may record, query and monitor the waste information of the set raw material.

Optionally, the raw material purchase order management module 101 is specifically configured to record a verification state of the receiving information corresponding to the raw material purchase order; synchronizing receiving information corresponding to the raw material purchase order to a main platform, and receiving a receiving voucher which is sent by the main platform based on the sending information and corresponds to the raw material purchase order; and querying status information of the raw material purchase order. The receiving information may be data related to the raw material received by the receiver. For example, the receiving information may include, but is not limited to, the type and quantity of the raw material, the production time of the raw material, whether the raw material has a quality problem, and the like. The verification status may be the result of a comparison verification of the received raw material and the receipt information. The host platform may be used to store, manage, and monitor all data of the smart warehouse management platform 100. For example, the main platform may employ an EPG (Electronic Program Guide) system. The receipt voucher may be a voucher for the recipient to receive all or a portion of the raw materials corresponding to the raw material purchase order. The status information may characterize whether the raw material purchase order was processed. Illustratively, when a stock manager receives goods, i.e., raw materials, the quantity, the type, and the like of the received raw materials are verified according to delivery documents, quality verification is performed on the verified raw materials by a quality department, and finally, relevant information of qualified raw materials is stored in the raw material purchase order management module 101 of the intelligent storage management platform 100. Specifically, the custodian and the quality control department may log in the smart warehouse management platform 100 through a PC (Personal Computer) end or a mobile end. The raw material purchase order management module 101 may record information such as the quantity, type, and quality of raw materials corresponding to the raw material purchase order. The raw material purchase order management module 101 may also send the receiving information corresponding to the raw material purchase order to the main platform, so as to synchronize the receiving information of the main platform and the raw material purchase order management module 101. After receiving the receiving information sent by the raw material purchase order management module 101, the main platform generates a receiving certificate corresponding to the raw material purchase order, and sends the receiving certificate to the raw material purchase order management module 101. When the raw material purchase order management module 101 receives the receipt voucher, the state of the raw material purchase order corresponding to the receipt voucher can be changed accordingly, and the raw material purchase order management module 101 can query the state information of the raw material purchase order according to the business requirement, that is, query whether the raw material purchase order is processed.

In the embodiment of the invention, the intelligent warehousing management platform 100 can realize information interconnection between raw materials and a production line, and realize real lean production. The production line can be monitored through the screen of the intelligent warehousing platform 100, and the raw material inventory requirement, the industrial waste condition and the fault point of the production line of each station can be known in time. When the stock of the raw materials is insufficient at the station, the raw materials can be supplemented in time. When a fault point occurs in the production line, the intelligent warehousing management platform 100 can send online alarm information or early warning information to remind operation and maintenance personnel to process the fault point in time. Therefore, the intelligent warehousing management platform 100 of the present solution can realize visible consumption of raw materials of the production line, visible processing parameters of the production line, visible production progress and visible production differences of the production line.

Optionally, the finished product delivery management module 105 is specifically configured to recommend a finished product to be delivered according to the finished product delivery order and the finished product allocation rule, and query logistics information of the finished product that has been delivered and corresponds to the finished product delivery order. The finished product delivery order may be an order generated when the finished product is delivered, and is used for delivering the finished product. The finished product allocation rule may be a finished product ex-warehouse rule, for example, the finished product allocation rule may include that the number of finished products ex-warehouse is greater than or equal to the preset number of finished products ex-warehouse, and finished products in first-warehouse are allocated first. Accordingly, the smart warehouse management platform 100 sends the finished product delivery order to the finished product delivery management module 105, and the finished product delivery management module 105 can recommend the finished product to be delivered according to the finished product delivery order and the finished product allocation rule. For example, the finished products to be shipped corresponding to the finished product delivery order are recommended according to the finished product delivery order and the rule that the finished products are first put in storage and are first distributed. The finished product delivery management module 105 may also query logistics information of finished products that have been delivered corresponding to the finished product delivery order, such as current location information of finished products that have been delivered, historical location information of finished products that have been delivered, time information of location information change of finished products that have been delivered, and personnel information for entering finished product logistics information. Therefore, through the finished product delivery management module 105, the clear management of the warehouse where the finished products are located can be realized, the responsibility is clear, the accounts are consistent, and the work efficiency of a warehouse manager is improved.

In an embodiment of the present invention, after logging in the intelligent warehousing management platform 100, the warehouse manager may sort and allocate raw materials in the raw material delivery order according to the raw material delivery order and the location of the raw materials in the raw material delivery order recommended by the raw material sorting and allocating management module 103, and further query the destination location of the delivery of the raw materials recorded in the raw material delivery order management module 104, so as to further schedule and deliver the raw materials in the raw material delivery order according to the destination location of the delivery, and implement the confirmation of the delivery of the raw materials by a third party or a raw material processing station.

Warehouse management products in the prior art tend to be homogeneous, and the products cannot be flexibly changed according to different requirements of users, so that the existing warehouse management products cannot meet the increasingly personalized requirements of the users. In addition, the information of each node in the existing warehouse management product is relatively independent, and the information island problem exists, so that the existing warehouse management product does not have the whole-process monitoring capability, and the service wind direction is high. In addition, the traditional storage management mainly records the goods information, goods warehousing and logistics information through people, so that the traditional storage management has low business efficiency and needs to consume a large amount of manpower and material resources. The intelligent warehousing management platform in the embodiment of the invention can be interconnected with the intelligent logistics equipment and the enterprise information system, so that the full sharing of enterprise resources and the high cooperation of each link of an industrial chain are realized, and the manufacturing capability of enterprises is improved. For example, the intelligent warehousing management platform can perform cooperative processing on production, equipment, a management system and the like in an industrial chain, so that the effects of visual whole flow from raw material warehousing, distribution to finished product preparation completion and finished product allocation and sale and traceability of the production progress of the finished product are achieved. Therefore, the intelligent warehousing management platform can provide flexible, interconnected, intelligent and visual intelligent warehousing management for enterprises.

The embodiment of the invention realizes the recording, query and monitoring of the raw material purchase order, the position information of raw materials stored in a warehouse, the delivery position of raw materials from the warehouse, the raw material distribution position, the delivery information of finished products, product information prepared by a third party, residual raw material information and waste information of set raw materials by a raw material purchase order management module, a raw material inventory management module, a raw material sorting management module, a raw material delivery order management module, a finished product delivery management module, a processing and accepting management module, a virtual single management module and a set raw material replacement management module of an intelligent warehousing management platform, solves the problems of island information, poor whole-process monitoring capability, low service efficiency, high labor cost and incapability of meeting the personalized requirements of users caused by relative independence of various links of warehousing management in the prior art, the controllable observability of the whole process of warehousing, distribution of raw materials and preparation and distribution of finished products is improved, the efficient control of the raw materials and the finished products is realized, the service efficiency is improved, and the individual requirements on an intelligent warehousing management platform are met. In addition, this scheme can also recommend the raw and other materials position in the raw and other materials delivery order, is convenient for look for raw and other materials, promotes warehouse keeper picking efficiency.

Example two

Fig. 2 is a schematic diagram of an intelligent warehouse management platform according to a second embodiment of the present invention, which is embodied on the basis of the second embodiment, and provides a richer function module of the intelligent warehouse management platform, as shown in fig. 2, the intelligent warehouse management platform 100 includes a raw material purchase order management module 101, a raw material inventory management module 102, a raw material sorting management module 103, a raw material delivery order management module 104, a finished product delivery management module 105, a processing and acquisition management module 106, a virtual single management module 107, a set raw material replacement management module 108, a finished product offline management module 109, a finished product allocation management module 110, a finished product warehouse management module 111, a raw material vehicle reservation management module 112, a replenishment material management module 113, a basic data maintenance module 114, a finished product inventory management module 115, and a finished product sorting management module 116.

The finished product offline management module 109 is configured to manage information of a process from production completion to transportation of a finished product to a warehouse. The process information can be information representing the finished product production completion and each link of finished product transportation registration from the production line to the warehouse, and is used for tracking and positioning the finished product. Accordingly, the finished product offline management module 109 can record, query and monitor information about finished product production from the production line, position information of finished products during transportation from the production line to the warehouse, and warehouse position for storing finished products.

And a finished product allocation management module 110, configured to manage allocation information of finished products between internal factories. The internal factory may be owned by the raw material receiver, or a factory that processes raw materials into finished products. The allocation information may be data generated by product allocation between internal factories. For example, the allocation information may include, but is not limited to, a name of an internal factory where the finished product is located before the allocation, location information of the internal factory where the finished product is located before the allocation, a type of the finished product, location information of a warehouse where the finished product is located before the allocation, a name of an internal factory where the finished product is located after the allocation, location information of an internal factory where the finished product is located after the allocation, and location information of a warehouse where the finished product is located after the allocation. Specifically, the finished product allocation management module 110 may record, query, and monitor allocation information for finished product allocation between internal factories.

Optionally, the finished product allocation management module 110 is specifically configured to create a finished product allocation order; if receiving a verification confirmation message of the target factory end to the finished product allocation order, reminding the allocated finished product to deliver goods; and inquiring the logistics information of the finished products and the state information of the finished product allocation orders in the finished product allocation orders. The finished product allocation order can be an order generated according to all or part of allocation information and is used for allocating finished products to internal factories. The destination factory side may be a shipping factory side that dials the finished product. The audit confirmation message may be a message sent to the finished product allocation management module 110 after the target factory performs inventory verification on the allocated finished products according to the finished product allocation order. Specifically, the finished product allocation management module 110 may also create a finished product allocation order to coordinate the number of finished products in each internal factory. When the finished product allocation management module 110 receives the audit confirmation message of the finished product allocation order sent by the delivery factory end for allocating the finished product, the finished product allocation management module 110 may remind the allocated finished product of delivery by sending a message. In addition, the finished product allocation management module 110 may query logistics information of the finished product in the finished product allocation order during the finished product allocation process. When the finished product in the finished product allocation order is delivered, the status information of the allocation order may be modified to be in the out-of-warehouse status, and the status information of the allocation order may be queried by the finished product allocation management module 110.

In the embodiment of the present invention, the warehouse manager sorts and allocates the finished products according to the finished product allocation order and the principle of first-in-warehouse first-allocation, and records the sorted and allocated product information in the finished product offline management module 109. The finished product offline management module 109 can send the finished product ex-warehouse information to the access control system of the finished product distributor through the intelligent warehousing management platform 100, so as to realize the control of the finished product going out. The access control system of the finished product sender can register, inquire and monitor the information of the finished products delivered, so that the finished products can be conveniently controlled.

In the embodiment of the present invention, while the finished product allocation management module 110 creates the finished product allocation order, the intelligent warehousing management platform 100 checks the finished product inventory in the finished product allocation order, and if the finished product inventory meets the number of finished product allocations in the finished product allocation order, the intelligent warehousing management platform 100 sends an audit confirmation message to the finished product allocation order. The finished product allocation management module 110 may send a signal to remind the destination factory of the delivery of the allocated finished product after receiving the audit confirmation message of the finished product allocation order from the destination factory. The finished product allocation management module 110 may also query the finished product logistics information in the finished product allocation order to facilitate tracking of the finished products in the finished product allocation order. The delivery status in the finished product allocation order is determined by querying status information of the finished product allocation order of the finished product allocation management module 110 to facilitate management of the finished product allocation order.

And the finished product warehouse management module 111 is used for managing the service information of the finished products in the warehouse. The service information may be information associated with the finished product warehousing and ex-warehouse and the information of the finished product itself. For example, the finished product information may include, but is not limited to, the allocation information of the finished product, the rejection information of the finished product, the location information of the warehouse where the finished product is located, the number of finished products, and the inventory information of the product categories. The finished product warehouse management module 111 may record, query, and monitor the service information of the finished product after the finished product warehouse is put in storage.

Fig. 3 is a schematic structural diagram of a management module in a finished product library according to a second embodiment of the present invention, as shown in fig. 3, the management module 111 in the finished product library may include a finished product library sealing/unpacking unit 1111, a finished product receiving management unit 1112, a finished product scrapping management unit 1113, a finished product library moving management unit 1114, a finished product inventory management unit 1115, a finished product unpacking and packing management unit 1116, and a finished product unpacking and packing management unit 1117.

In the embodiment of the present invention, the library sealing/unpacking unit 1111 is configured to perform library sealing processing on the finished product information corresponding to the finished product production order if the finished product corresponding to the finished product production order does not meet the set quality condition; and if the finished products corresponding to the finished product production order meet the set quality conditions, performing warehouse-solving processing on the finished product information corresponding to the finished product production order. Wherein the set quality condition may be a standard of quality inspection of the finished product. The finished product production list can be a finished product detail corresponding to the finished product in the warehouse. The finished product information may be information associated with the finished product in the warehouse. For example, the finished product information may include location information of a warehouse where the finished product is located, quality information of the finished product, allocation information of the finished product, and the like. The warehouse sealing treatment can be information recording and corresponding finished product information management of finished products which do not meet set quality conditions. The library solving process can be information recording and finished product information management of finished products meeting set quality conditions. In the embodiment of the present invention, the finished product library management module 111 may include a finished product library sealing/library disassembling unit 1111, when the finished product corresponding to the finished product manufacturing order does not meet the set quality condition, the finished product library sealing unit performs library sealing processing on the finished product information corresponding to the finished product manufacturing order. And the finished products corresponding to the finished product information processed by the warehouse sealing cannot be allocated and sold. And when the finished products corresponding to the finished product production order meet the set quality conditions, the library solving unit carries out library solving processing on the finished product information corresponding to the finished product production order. And the finished product of the finished product information corresponding to the library solving processing can be allocated and sold.

In this embodiment of the present invention, the finished product acceptance management unit 1112 is configured to manage information of finished product acceptance. The information for receiving the finished product can be related data generated when the finished product is received by different departments after the finished product is offline. The information of finished product acceptance may include information of a finished product acceptance department, a type of finished product, a quantity of finished product, and the like. Specifically, the finished product acceptance management unit 1112 may record, query, and monitor information of finished product acceptance.

In the embodiment of the present invention, the finished product scrapping management unit 1113 is configured to manage scrapping information of finished products. The scrapping information of the finished product can be relevant information of scrapping the finished product. For example, the reject information of the finished product may include the type and number of the rejected finished products, and the position information of the rejected finished products. Specifically, the finished product scrapping management unit 1113 may record, query, and monitor scrapping information of the finished product.

In this embodiment of the present invention, the finished product moving management unit 1114 is configured to manage information about movement of finished products between the warehouses. Wherein, the mobile information can be the related information generated when the finished products are transferred between different warehouses of the same internal factory. For example, the movement information may include information on the type and number of finished products to be transferred, and the location of a warehouse after the finished products are transferred. It is understood that the finished product moving management unit 1114 can record, query and monitor the moving information of the finished products between the various warehouses.

In this embodiment of the present invention, the finished product inventory management unit 1115 may be configured to manage inventory information of finished products. The inventory information may include the number of various finished products in different warehouses of the same internal plant, the position information of various finished products, the total amount of various finished products of all internal plants, and the like. Specifically, the finished product inventory management unit 1115 may record, query, and monitor inventory information of finished products.

In this embodiment of the present invention, the finished product unpacking and assembling management unit 1116 may be used to manage the finished product unpacking information and the assembling information. In one specific example, when the quantity of the finished product delivery order is a multiple of the number of non-full-box finished products, the full-box finished products need to be unpacked to obtain the same number of finished products as the number of finished products in the finished product delivery order. Correspondingly, the same type of unpacked finished products can be subjected to box combination treatment, namely, the finished products reaching the total number of the whole box finished products are placed in one box. The unpacking information may be information related to an unpacking process. The mould assembling information may be information related to a mould assembling process. The unpacking information may include information such as a type of a finished product subjected to the unpacking process, position information of the unpacked finished product, and the number of the remaining finished products after the unpacking process. The mould assembling information can comprise information such as the types of finished products subjected to mould assembling, the number of the finished products subjected to mould assembling, the storage positions of the finished products subjected to mould assembling and the like. Accordingly, the finished product unpacking and assembling management unit 1116 can record, query and monitor the finished product unpacking information and the assembling information.

In this embodiment of the present invention, the finished product splitting and truing management unit 1117 may be configured to manage merging information of a finished product on a tray and splitting information of a finished product on a tray. Wherein, the tray is a measurement unit. For example, the number of finished products for a pallet may be an integer multiple of the number of finished products for a box. When the number of finished products is less than that of finished products of a tray, the finished products are combined, namely the finished products are allocated, so that the number of finished products of the tray is reached. The merging information may be information related to the merging process performed by the finished product. For example, the consolidated information may include the type of a pallet finished product, the warehouse location information to which the finished product belongs, and the like. When the number of the finished products is larger than that of the finished products of one tray, the finished products are split, namely the finished products larger than one tray are combined on the trays with the number of the other finished products being less than that of the finished products. The splitting information may be information related to the splitting process. For example, the splitting information may include information such as the type of finished product subjected to the splitting process and the number of splitting processes. Correspondingly, the finished product splitting and supporting and managing unit 1117 can record, query and monitor the merging information of the finished product on the tray and the splitting information of the finished product on the tray.

And a raw material vehicle reservation management module 112 for managing information of transportation vehicles reserved for raw materials. The information of the transportation vehicle for which the raw material is reserved may include a reserved delivery time of the transportation vehicle, a time to arrive at a receiving place, information of the transported raw material, driver information of the transportation vehicle, and the like. In the embodiment of the present invention, the raw material vehicle reservation management module 112 may record, query and monitor information of transportation vehicles reserved for raw materials. According to the data recorded by the raw material vehicle reservation management module 112, the effects of timely reservation of raw materials, delivery of raw materials as required, warehousing of raw materials as required, minimum warehouse raw material inventory and less inventory fund occupation can be realized.

And the material feeding management module 113 is used for managing information of raw materials needing to be supplemented. The raw material information to be supplemented may be information of raw materials to be supplemented when the raw material stock is insufficient or finished product processing needs exist. The information of the raw materials to be supplemented may include information of the number of raw materials to be supplemented and the types of the raw materials to be supplemented. In the embodiment of the present invention, the feeding management module 113 can record, query and monitor the information of the raw materials to be supplemented. The intelligent warehousing management platform 100 can automatically trigger material supplementing after finished products are off-line through the material supplementing management module 113, that is, automatically supplementing material according to production beats.

And a basic data maintenance module 114 for setting and managing basic data of each module. The basic data may be data that each module needs to initialize in order to implement its own function. Specifically, each module needs to perform initialization operation in order to realize the function of its own module, and data related to initialization may be used as basic data. The basic data maintenance module 114 can set basic data for each module according to the function of the module. The basic data maintenance module 114 may also manage basic data, such as maintenance of basic data, so as to improve security of data access and facilitate maintenance of basic data. In addition, when a module needs to add functionality, new base data can be added via base data maintenance module 114.

And a finished product inventory management module 115 for managing location information of a storage location of the finished product in the warehouse. Accordingly, after the finished products are put in storage, the information about the positions of the finished products in the storage locations of the storage may be recorded in the finished product inventory management module 115. The finished product inventory management module 115 may also query and monitor location information of the finished product at the storage location of the warehouse.

A finished goods picking management module 116 for recommending the location of the finished goods in the finished goods delivery order. Specifically, when a finished product needs to be sold or is allocated between internal factories, the warehouse manager may pick the finished product according to the position of the finished product in the finished product delivery order recommended by the finished product picking management module 116.

In an alternative embodiment of the present invention, each module of the smart warehouse management platform 100 may include a statistics unit; and the statistical report unit is used for counting the information of each module. The statistical report unit can be used for statistics summary of information. Specifically, the statistical report unit in the intelligent warehousing management platform 100 may perform statistics on information of each module, for example, the statistical report unit may perform statistics on information of a finished product allocation order created by the finished product allocation management module 110 to obtain a finished product with a maximum allocation quantity and a position with a maximum receiving quantity of each finished product in the finished product allocation order, so as to perform pre-judgment on finished product inventory through analysis of statistical information to realize timely replenishment. The statistical report unit can also perform statistics on finished product information corresponding to the warehouse sealing processing, so that finished products which do not accord with the set quality condition can be managed in a unified manner.

In an optional embodiment of the present invention, the smart warehouse management platform 100 may further include: and the authority management module can be used for managing the authority of the user logging in the intelligent warehousing management platform 100. Specifically, after different users log in the intelligent warehousing management platform 100, the intelligent warehousing management platform 100 checks the user identities, and the operation permissions of the users with different user identities are different. For example, a library manager may query, record, and monitor information in the inventory management module. The manufacturer does not have the authority to manipulate the data in the inventory management module. The quality department has operation authority to the library sealing unit and the library disassembling unit.

Fig. 4 is a schematic diagram of an operation flow of an intelligent warehousing platform according to a second embodiment of the present invention, in a specific example, as shown in fig. 4, a raw material supplier delivers a raw material according to a raw material purchase order according to a reserved time, a guard will deliver the raw material to a custodian after security and delivery, the custodian obtains the raw material purchase order through the raw material purchase order management module 101 shown in fig. 2, and further performs a quality check on the raw material after performing a verification check according to the raw material purchase order and the received raw material. The stock manager puts qualified raw materials on a shelf through the planar library/the stereoscopic library, uploads the information of the qualified raw materials to a raw material inventory management module 102 shown in fig. 2, and the raw material inventory management module 102 synchronizes the information of the qualified raw materials to an ERP (Enterprise Resource Planning) system, so that the raw materials are put in storage. When there is a finished product processing demand, the stock manager may sort the raw materials according to the raw material position recommended by the raw material sorting management module 103 shown in fig. 2, record the sorted raw material information in the raw material delivery order management module 104 shown in fig. 2, and distribute the raw materials whose information is recorded, for example, the stock manager may send the sorted raw materials to a third party or an internal factory. A third party or an internal factory may perform the hand-off process for the raw materials. The processing from raw material to finished product can be queried by the relevant modules of the smart warehouse management platform 100, for example, the processing acquisition management module 106 shown in fig. 2 can query the information of the product prepared by the third party. The information on the raw materials remaining in the production line of the internal plant can be searched for by the virtual management module 107 shown in fig. 2, and the information on the scrap of the set raw materials can be searched for by the set raw material replacement management module 108 shown in fig. 2. Finished products processed by the third party can be sent to a finished product preparation consignor, and the finished products are received by security of a guard of the finished product preparation consignor. The manufacturer delivers the finished product to a stock manager, i.e., the finished product is taken off line, the stock manager performs plane library scanning or three-dimensional library scanning on the received finished product, and puts the scanned finished product on the shelf, and the scanned finished product information can be recorded in the finished product stock management module 115 shown in fig. 2. The quality department performs the warehouse sealing and warehouse releasing processing on the finished products on shelves through a warehouse sealing/warehouse releasing unit 1111 as shown in fig. 3. And the warehouse manager checks the sales order/finished product transfer order according to the finished products, finished product transfer orders or sales orders which are subjected to warehouse sealing/warehouse opening processing, if the finished product inventory in the finished product transfer orders or the sales orders meets the warehouse-out quantity, the finished products pass the checking, the checked finished products are picked according to the finished product transfer orders or the sales orders according to the first distribution principle of warehouse-in, and the finished products are further delivered out of the warehouse. And delivering the finished products after delivery from the warehouse by security of a guard.

In an alternative embodiment of the present invention, the intelligent warehouse management platform 100 may also be connected to a printer. The intelligent warehouse management platform 100 may send the material to be printed to a printer, which prints the material out for the warehouse manager, the manufacturer, or the quality department to refer to. For example, the printer may print raw material purchase orders, raw material shipping orders, finished product placement orders, and finished product shipping orders sent by intelligent warehouse management platform 100.

According to the technical scheme of the embodiment, the problems that the existing warehousing management cannot meet the personalized requirements of users and the service efficiency is low are solved, the effect of whole-process traceable management and control of transferring and transporting raw materials, semi-finished products and finished products among warehouses is realized, and the functions of raw material reservation, accurate delivery and real-time delivery can be realized, the timeliness of feeding materials according to needs is improved.

The product can execute the method provided by any embodiment of the invention, and has corresponding functional modules and beneficial effects of the execution method.

EXAMPLE III

Fig. 5 is a schematic diagram of an intelligent warehouse management system according to a third embodiment of the present invention, which is applicable to intelligent management of warehouse resources. As shown in fig. 5, the smart warehouse management system includes: the intelligent warehouse management platform 100 further comprises a scanning device 201, a display device 202 and an indicating device 203. The modules of the smart warehouse management platform 100 are described with reference to the above embodiments.

The scanning device 201 is used for scanning the identification information of the raw material or the finished product. The identification information may be an identifier for distinguishing raw materials from each other or for distinguishing finished products from each other. For example, the form of the identification information may include, but is not limited to, a barcode, a two-dimensional code, or a character string. The scanning device 201 may scan the identification information of the raw material or the finished product, so as to identify the scanned raw material or finished product, and the scanned identification information may be used to obtain logistics information, location information, and self-class information of the corresponding raw material or finished product.

And the display device 202 is used for displaying the information of the raw materials required by each production line. Specifically, the display device 202 may display information of raw materials required by each production line by using a display screen. For example, the display device 202 may display information such as the type of raw material required, the quantity of raw material, and the factory in stock that includes the required raw material.

And the indicating device 203 is arranged on the shelf where the raw material is located and used for prompting the position of the raw material in the raw material delivery order. Correspondingly, the indicating device 203 arranged on the shelf where the raw material is located can send out a prompting signal, and the position of the raw material in the raw material delivery order is prompted by using the prompting signal. For example, the indicating device 203 may use a flashing indicator light to alert the custodian of the location of the raw material.

The intelligent warehousing management system can also comprise: and the alarm device is used for prompting that the storage time of the finished products in the warehouse exceeds a storage time threshold value. The storage time threshold may be a preset storage time of the finished product. If the retention time of the finished product stored in the intelligent management platform 100 exceeds the storage time threshold, an alarm prompt can be given by flashing an indicator light or sound, so that a custodian can process the finished product as much as possible.

Example four

Fig. 6 is a flowchart of an intelligent warehouse management method according to a fourth embodiment of the present invention, where this embodiment may be used for intelligent management of warehouse resources, the method may be executed by an intelligent warehouse management platform, the terminal may be implemented by software and/or hardware, and may be generally integrated in a computer device, as shown in fig. 6, the method includes the following operations:

and S310, managing the raw material purchase order through the raw material purchase order management module.

In an alternative embodiment of the present invention, managing raw material purchase orders by a raw material purchase order management module may include: recording the verification state of the receiving information corresponding to the raw material purchase order; synchronizing receiving information corresponding to the raw material purchase order to a main platform, and receiving a receiving voucher which is sent by the main platform based on the sending information and corresponds to the raw material purchase order; and inquiring the state information of the raw material purchase order.

And S320, managing the position information of the raw materials stored in the warehouse through the raw material inventory management module.

And S330, recommending the position of the raw material in the raw material delivery order through the raw material sorting management module based on the position information stored in the warehouse.

And S340, managing information of the raw materials in the raw material delivery order from the delivery position of the warehouse to the delivery destination position through the raw material delivery order management module.

And S350, managing the delivery information of the finished product through the finished product delivery management module.

In an optional embodiment of the present invention, managing shipment information for a finished product by a finished product shipment management module comprises: and recommending finished products to be delivered according to the finished product delivery order and the finished product distribution rule, and inquiring the logistics information of the delivered finished products corresponding to the finished product delivery order.

And S360, managing the product information prepared by the third party through the processing and acquisition management module.

And S370, managing the information of the residual raw materials on the production line through the virtual single management module.

And S380, managing the waste information of the set raw materials obtained on the production line through the set raw material replacement management module.

In an optional embodiment of the present invention, the smart warehouse management method may further include: managing the flow information of the finished products from the production completion of the production line to the transportation to the warehouse through a finished product offline management module; managing the allocation information of finished products among internal factories through a finished product allocation management module; and managing the service information of the finished products in the warehouse through a finished product warehouse management module.

In an optional embodiment of the present invention, the smart warehouse management method may further include: managing the information of the transportation vehicles reserved for the raw materials through a raw material vehicle reservation management module; managing raw material information needing to be supplemented through a material supplementing management module; and setting and managing the basic data of each module through the basic data maintenance module.

In an optional embodiment of the present invention, the smart warehouse management method may further include: and managing the position information of the storage position of the finished product in the warehouse through a finished product inventory management module.

In an optional embodiment of the present invention, the smart warehouse management method may further include: and recommending the position of the finished product in the finished product delivery order through a finished product sorting management module.

In an alternative embodiment of the present invention, managing the allocation information between the finished goods in the internal factories may include: creating a finished product allocation order through a finished product allocation management module; if receiving a verification confirmation message of the target factory end to the finished product allocation order, reminding the allocated finished product to deliver goods; and inquiring the logistics information of the finished products and the state information of the finished product allocation orders in the finished product allocation orders.

In an optional embodiment of the present invention, the managing the business information of the finished product in the warehouse includes: if the finished products corresponding to the finished product production order do not meet the set quality conditions, carrying out warehouse sealing processing on the finished product information corresponding to the finished product production order through a warehouse sealing unit; if the finished products corresponding to the finished product production order meet the set quality conditions, performing warehouse-solving processing on the finished product information corresponding to the finished product production order through a warehouse-solving unit; managing the information of finished product acceptance through a finished product acceptance management unit; managing the scrapping information of the finished product through a finished product scrapping management unit; managing the movement information of the finished products among all warehouses through a finished product moving management unit; managing the inventory information of the finished products through a finished product inventory management unit; managing the unpacking information and the assembling information of the finished products through a finished product unpacking and assembling management unit; and managing the merging information of the finished product on the tray and the splitting information of the finished product on the tray through the finished product splitting and supporting management unit.

In an optional embodiment of the present invention, the intelligent warehouse management method may count each information through the statistical report unit.

For the specific description of each step, reference may be made to the description of the above embodiments.

In the embodiment of the invention, a raw material purchase order is managed by a raw material purchase order management module; managing the position information of the raw materials stored in the warehouse through a raw material inventory management module; recommending, by a raw material picking management module, a location of a raw material in a raw material delivery order based on location information of the raw material stored in a warehouse; managing, by a raw material shipment order management module, information of raw materials in the raw material shipment order from a shipment location of a warehouse to a destination location of delivery; managing delivery information of the finished product through a finished product delivery management module; managing the product information provided for the third party preparation through a processing and acceptance management module; managing the information of the residual raw materials on the production line through a virtual single management module; the waste material information of the set raw materials obtained on the production line is managed through the set raw material replacement management module, the problems that in the prior art, each link of storage management is relatively independent and causes information islands, the whole monitoring capability is poor, the service efficiency is low, the labor cost is high, and the personalized requirements of users cannot be met are solved, the controllable observability of the whole process of automatic raw material warehousing, distribution and finished product preparation distribution is improved, the efficient control of the raw materials and the finished products is realized, the service efficiency is improved, and the personalized requirements of an intelligent storage management platform are met. In addition, this scheme can also recommend the raw and other materials position in the raw and other materials delivery order, is convenient for look for raw and other materials, promotes warehouse keeper picking efficiency.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. An intelligent warehouse management platform, comprising:

the raw material purchase order management module is used for managing a raw material purchase order;

the raw material inventory management module is used for managing the position information of the raw materials stored in the warehouse;

the raw material sorting management module is used for recommending the position of the raw material in the raw material delivery order based on the position information stored in the warehouse by the raw material;

the raw material delivery order management module is used for managing information of raw materials in the raw material delivery order from a delivery position of a warehouse to a delivery destination position;

the finished product delivery management module is used for managing delivery information of finished products;

the processing and acceptance management module is used for managing the product information prepared by a third party;

the virtual single management module is used for managing the information of the residual raw materials on the production line;

and the set raw material replacement management module is used for managing the waste information of the set raw materials obtained on the production line.

2. The platform of claim 1, further comprising:

the finished product offline management module is used for managing the flow information of finished products from the production completion of the production line to the transportation to the warehouse;

the finished product allocation management module is used for managing allocation information of finished products among internal factories;

the finished product warehouse management module is used for managing the service information of the finished products in the warehouse;

the finished product inventory management module is used for managing the position information of the storage position of the finished product in the warehouse;

and the finished product sorting management module is used for recommending the position of the finished product in the finished product delivery order.

3. The platform of claim 1 or 2, further comprising:

the raw material vehicle reservation management module is used for managing the information of the transportation vehicles reserved for the raw materials;

the material supplementing management module is used for managing the information of raw materials needing to be supplemented;

and the basic data maintenance module is used for setting and managing the basic data of each module.

4. The platform of claim 1,

the raw material purchase order management module is specifically used for recording the verification state of the receiving information corresponding to the raw material purchase order;

synchronizing receiving information corresponding to the raw material purchase order to a main platform, and receiving a receiving voucher which is sent by the main platform based on the sending information and corresponds to the raw material purchase order; and inquiring the state information of the raw material purchase order.

5. The platform of claim 2,

the finished product allocation management module is specifically used for creating a finished product allocation order;

if receiving a verification confirmation message of the target factory end to the finished product allocation order, reminding the allocated finished product to deliver goods; and inquiring the logistics information of the finished products and the state information of the finished product allocation orders in the finished product allocation orders.

6. The platform of claim 2,

the finished product warehouse management module comprises a finished product warehouse sealing/disassembling unit, a finished product acceptance management unit, a finished product scrapping management unit, a finished product warehouse moving management unit, a finished product checking management unit, a finished product unpacking and assembling management unit and a finished product unpacking and assembling management unit;

the warehouse sealing/unpacking unit is used for sealing the finished product information corresponding to the finished product production order if the finished product corresponding to the finished product production order does not meet the set quality condition; if the finished products corresponding to the finished product production order meet the set quality conditions, performing warehouse-solving processing on the finished product information corresponding to the finished product production order;

the finished product acceptance management unit is used for managing information of finished product acceptance;

the finished product scrapping management unit is used for managing scrapping information of finished products;

the finished product warehouse moving management unit is used for managing the moving information of finished products among all warehouses;

the finished product checking management unit is used for managing the checking information of the finished products;

the finished product unpacking and assembling management unit is used for managing the finished product unpacking information and the assembling information;

and the finished product disassembling and supporting and managing unit is used for managing the merging information of the finished product on the tray and the disassembling information of the finished product on the tray.

7. The platform of claim 1,

the finished product delivery management module is specifically configured to recommend a finished product to be delivered according to a finished product delivery order and a finished product allocation rule, and to query logistics information of a finished product that has been delivered and corresponds to the finished product delivery order.

8. The platform of any one of claims 1 to 3,

each module comprises a statistical report unit;

and the statistical report unit is used for counting the information of each module.

9. An intelligent warehouse management system, characterized in that, the intelligent warehouse management platform of any one of claims 1 to 8 is included, the system further comprises a scanning device, a display device and an indicating device;

the scanning device is used for scanning the identification information of the raw material or the finished product;

the display device is used for displaying the information of the raw materials required by each production line;

the indicating device is arranged on the goods shelf where the raw materials are located and used for prompting the positions of the raw materials in the raw material delivery order.

10. An intelligent warehouse management method is characterized in that,

managing the raw material purchase order through a raw material purchase order management module;

managing the position information of the raw materials stored in the warehouse through a raw material inventory management module;

recommending, by a raw material picking management module, a location of a raw material in a raw material delivery order based on location information of the raw material stored in a warehouse;

managing, by a raw material shipment order management module, information of raw materials in the raw material shipment order from a shipment location of a warehouse to a destination location of delivery;

managing delivery information of the finished product through a finished product delivery management module;

managing the product information provided for the third party preparation through a processing and acceptance management module;

managing the information of the residual raw materials on the production line through a virtual single management module;

and managing waste information of the set raw materials obtained on the production line through a set raw material replacement management module.

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