CN115809908A - Supply chain intelligent management system based on cloud storehouse visualization - Google Patents

Abstract

The invention discloses a supply chain intelligent management system based on cloud storage visualization, which comprises a commodity order management subsystem, a cloud storage database and a commodity storage management subsystem, wherein supply chain management formed by a supplier end, a cloud storage end and a purchasing end is divided into commodity order management and commodity storage management, wherein the commodity order management is management formed by the purchasing end and the cloud storage end, and the commodity storage management is management formed by the supplier end and the cloud storage end.

Description

Supply chain intelligent management system based on cloud storehouse visualization

Technical Field

The invention belongs to the technical field of supply chain management, and particularly relates to a supply chain intelligent management system based on cloud storage visualization.

Background

With the development of social economy, the purchasing power of people to commodities is gradually improved, so that more and more commodities are produced, the warehouse management mode of a supplier is limited due to the fact that the management level is limited, the phenomenon that the warehouse of the express is exploded is more and more serious, and the cloud warehouse mode is developed in order to solve the problem that the express time effect cannot be guaranteed due to the fact that mass goods are delivered simultaneously. The cloud warehouse is a product of a logistics warehouse, and is a brand-new logistics warehouse system product for goods circulation by utilizing a cloud computing and modern management mode and relying on warehouse facilities, namely, a third-party warehouse company, a supplier gives the problems in terms of warehousing and distribution to the third-party warehouse company for operation, and the supplier only needs to concentrate on the self-selling and operation, so that the sales benefits of the supplier can be effectively improved. In this case, the supply chain formed by the supplier and the purchaser alone gradually evolves into a supply chain formed by the supplier side, the cloud storage side, and the purchasing side.

In the supply chain, the cloud storage end is used as an intermediate medium, commodities stored in the cloud storage by a supplier need to be managed, and after ordering is made by a purchasing end, logistics distribution management of commodity orders needs to be managed, however, on one hand, important attention is paid to logistics distribution management of the commodity orders in a management operation mode corresponding to the supply chain at present, the logistics distribution management is limited to stock management of the commodity storage management at present, the management mode is too extensive, other management indexes such as quality management of the stored commodities and the like are ignored, so that the management service range is limited, various accurate service management of commodity storage cannot be provided for the supplier staying in the cloud storage, and further, the experience of the supplier staying in the cloud storage is reduced; on the other hand, each management link in commodity order logistics management is automatically made by the cloud storage end, and the management link contents (such as commodity taking, delivery and delivery) displayed on the background only display text contents and lack direct impression, so that the purchasing end cannot know the management process and is difficult to participate in the management process, and the purchasing experience of the purchasing end is reduced.

Disclosure of Invention

In order to overcome the defects, the purpose of the application is to provide a supply chain intelligent management system based on cloud warehouse visualization, so that the storage experience of a supplier and the purchase experience of a purchasing end are improved doubly.

The invention is realized by the following technical scheme:

a supply chain intelligent management system based on cloud warehouse visualization is characterized in that a supply chain in the system is formed by a supplier end, a cloud warehouse end and a purchasing end, and the system comprises a commodity order management subsystem, a cloud warehouse database and a commodity warehouse management subsystem;

the commodity order management subsystem comprises a commodity order decomposition module, an order management link generation module, an order delivery warehouse area nearby selection module, a delivery commodity online selection module, a logistics transport side suitable selection module and an order management content uploading module;

the commodity order decomposition module is used for submitting a commodity order placed by a purchasing end to a cloud storage end by a supplier end, and the cloud storage end decomposes the content of the submitted commodity order and extracts order parameters from the commodity order;

the order management link generation module is used for extracting an order number and a buyer contact way from the order parameters, generating a management link corresponding to the commodity order according to the order number, and simultaneously sending the management link to the buyer for the buyer to watch;

the order delivery sub-warehouse area nearby selection module is used for extracting a supplier name, an order commodity name and an order address from order parameters and accordingly carrying out nearby selection on the delivery sub-warehouse area of the commodity order in the cloud warehouse;

the delivery commodity online selection module is used for carrying out online selection on delivery commodities of the order in the delivery warehouse areas by a purchasing end according to the delivery warehouse areas of the commodity order in the cloud warehouse and packaging the selected delivery commodities;

the logistics transport party suitable selection module is used for selecting a suitable logistics transport party for the commodity order;

the order management content uploading module is used for acquiring the position of the commodity order in the delivery sub-warehouse area in the cloud warehouse, a commodity packaging video, a logistics transportation party name and a logistics freight note number, and uploading the commodity order to a commodity order management link for linking;

the commodity warehousing management subsystem comprises a resident supplier statistics module, a commodity warehousing management service link generation module, a commodity warehousing damage management module, a commodity purchase approval management module and a warehousing management content uploading module;

the in-parking supplier counting module is used for counting the number of suppliers in a cloud warehouse and numbering the suppliers according to a preset sequence, and the suppliers are respectively marked as 1,2, 1, i, n;

the commodity storage management service link generation module is used for generating commodity storage management service links corresponding to all suppliers at a set management time interval, sending the commodity storage management service links to the suppliers and watching the commodity storage management service links by the suppliers;

the commodity storage loss management module is used for acquiring images of all commodities stored in the cloud storage by each supplier from the cloud storage end within a set management time interval and evaluating the easy storage loss indexes of the commodities corresponding to each supplier;

the commodity purchase approval management module is used for counting the shipment quantity and the return quantity corresponding to various commodities of each supplier in the cloud storehouse in a set management time interval, and calculating the purchase approval degree corresponding to various commodities of each supplier;

the warehouse management content uploading module is used for uploading all commodity images, the easy warehouse loss indexes and the purchase acceptance degrees corresponding to various commodities of each supplier to the commodity warehouse management service links corresponding to the suppliers within a set management time interval.

In a preferred embodiment, the order parameters include a supplier name, an order commodity name, an order address, and a purchaser contact.

In a preferred scheme, the specific operation process selected nearby by the delivery sub-warehouse performs the following steps:

s1, matching the extracted supplier name with a compartment area of each supplier corresponding to a commodity entering a stationary cloud compartment in a cloud storage database in a cloud compartment to obtain a compartment area of the commodity corresponding to the supplier in the cloud compartment;

s2, comparing the extracted commodity name of the order with the specified bin regions, in the cloud storage database, in which the commodities corresponding to the supplier are correspondingly stored in various commodities in the partitioned bin regions, and screening the specified bin regions, in the cloud bin, of the commodity of the order;

and S3, if only one specified sub-warehouse area of the commodity of the order form is in the cloud warehouse, the specified sub-warehouse area is the delivery sub-warehouse area of the commodity order form in the cloud warehouse, if more than one specified sub-warehouse area of the commodity of the order form in the cloud warehouse is in the cloud warehouse, the position of each specified sub-warehouse area is respectively positioned, the position of each specified sub-warehouse area is compared with the position of the order form address, and the specified sub-warehouse area closest to the order form address is screened out to be used as the delivery sub-warehouse area of the commodity order form in the cloud warehouse.

In a preferred embodiment, the specific process of online selection of the shipped goods is as follows:

step 1: according to the goods order, dispatching a goods taking robot in the delivery warehouse area according to the delivery warehouse area of the goods order in the cloud warehouse;

step 2: the goods taking robot carries out original object shooting on the goods stored in the delivery sub-warehouse area according to a carried high-definition camera, uploads the shot goods to a delivery goods online selection interface in an order management link, and simultaneously informs a buyer in time;

and step 3: and the buyer enters an online selection interface of the delivery commodity corresponding to the order by clicking the link of the order management link, so that the delivery commodity is manually clicked and selected according to the original image of the commodity displayed on the online selection interface.

In a preferred embodiment, the operation of the logistics transportation party suitability selection module for performing the suitability logistics transportation party selection on the commodity order includes:

the first step is as follows: after packaging the delivery goods, judging whether logistics pickup persons exist in the delivery sub-warehouse area at the current time point, if not, executing a third step, if so, counting the number of the logistics pickup persons, acquiring the logistics transporter names corresponding to the logistics pickup persons, further comparing the logistics transporter names corresponding to the logistics pickup persons, and counting the existing logistics transporter names in the delivery sub-warehouse area at the current time point;

the second step is that: extracting an order address from order parameters, and acquiring the number of logistics receiving points existing around the order address and the names of logistics transportation parties corresponding to the logistics receiving points and cooperating with the logistics receiving points, further matching the names of the logistics transportation parties existing in the delivery sub-warehouse with the names of the logistics transportation parties corresponding to the logistics receiving points, and counting the number of the successfully matched logistics transportation parties, wherein if only one logistics transportation party is successfully matched, the logistics transportation party is used as a suitable logistics transportation party corresponding to the commodity order, otherwise, the delivery distance from the position of the logistics receiving point corresponding to the successfully matched logistics transportation party to the position of the order address is counted, and the logistics transportation party corresponding to the logistics receiving point with the shortest delivery distance is selected as the suitable logistics transportation party corresponding to the commodity order;

the third step: and screening a logistics collection point closest to the position of the order address according to the method in the second step, taking a logistics transport party cooperating in the logistics collection point as a suitable logistics transport party corresponding to the commodity order, and reserving the logistics transport party corresponding to the logistics pickup at the moment.

In a preferred scheme, the order management content uploading module further obtains a logistics transportation progress of the commodity order in real time and uploads the logistics transportation progress.

In a preferred embodiment, the evaluation of the names of the commodities prone to loss in stock in the stock commodity quality management module performs the following steps:

(1) Counting the types and the quantity of commodities which are divided into bin regions by each supplier in a cloud bin, numbering the commodities which are stored in the cloud bin by each supplier, sequentially marking the commodities as A, B, a.

(2) Acquiring images of all commodities corresponding to various commodities of various suppliers in a cloud cabin division and subdivision area at a set management time interval;

(3) Comparing the collected commodity images with the images when the commodities are stored correspondingly from the cloud storage database, analyzing the damage ratio coefficient of each supplier corresponding to each commodity, and recording as lambda _iH ；

(4) Extracting the storage starting date of each commodity in the corresponding stock of each commodity from the storage parameters, and acquiring the current dateCalculating average storage time length corresponding to each commodity of each supplier according to the date, and recording the average storage time length as T _iH ；

(5) Evaluating the easy-to-store loss index of each supplier corresponding to each commodity according to the damage proportion coefficient and the average storage time length of each supplier corresponding to each commodity, and marking as eta _iH ，

In a preferred embodiment, the storage parameters include a total inventory quantity corresponding to each product and a storage start date corresponding to each product in the inventory.

In a preferred embodiment, the calculating method of the average storage duration corresponding to each commodity of each supplier is to subtract the storage start date of each commodity in the stock of each commodity corresponding to each supplier from the current date to obtain the storage duration of each commodity in the stock of each commodity corresponding to each supplier, and then average the storage durations to obtain the average storage duration corresponding to each commodity of each supplier.

In a preferred embodiment, the calculation method of the purchase acceptance of each commodity by each supplier is to divide the shipment amount by the return amount of each commodity.

Compared with the prior art, the invention has the following advantages:

(1) According to the invention, the supply chain management formed by the supplier end, the cloud storage end and the purchasing end is divided into commodity order management and commodity storage management, wherein the commodity order management is the management formed by the purchasing end and the cloud storage end, and the commodity storage management is the management formed by the supplier end and the cloud storage end.

(2) The invention generates a management link corresponding to the commodity order according to the order number in the commodity order management process, constructs an ex-warehouse commodity online selection interface in the management link, carries out the ex-warehouse commodity online selection by a purchasing end, uploads the out-warehouse commodity packaging video, the name of a logistics transportation party, the number of a logistics freight note and the logistics transportation progress information to the management link, and the purchasing end intuitively knows the content of each management link by clicking the management link, thereby embodying the visual characteristic of the content of the order management link, the method has the advantages that the independent selection degree of the purchasing end in the commodity order management process is improved, on one hand, the participation degree of the purchasing end in the commodity ordering management process is enhanced, a purchaser can select satisfactory goods, the quality problem of the goods to be shipped, caused by the fact that the goods to be shipped are directly and automatically extracted by the cloud storage end, is effectively solved, on the other hand, the situation that the purchasing end cannot trace back due to the fact that the actual quality of the goods to be shipped cannot be known in advance and the quality of the goods is defective during receiving is greatly avoided, and further the rights and interests of the purchaser are guaranteed to a certain extent.

(3) According to the invention, in the process of commodity storage management, the cloud storage end generates the commodity storage management service link corresponding to each supplier in the set management time interval, all commodity images, commodity names easy to store loss and purchase acceptance degrees corresponding to various commodities, which are stored in the cloud storage by each supplier in the set management time interval, are uploaded in the corresponding management service link, and the suppliers can visually check the commodity storage management service link by clicking the management service link, so that the management service range of commodity storage is expanded, the suppliers can know the visual quality, the commodity loss condition and the purchase acceptance condition of the commodities stored in the cloud storage in real time at each management time interval, and various accurate services of the commodities are successfully provided for the suppliers staying in the cloud storage.

Drawings

The invention is further illustrated by means of the attached drawings, but the embodiments in the drawings do not constitute any limitation to the invention, and for a person skilled in the art, without inventive effort, further drawings may be derived from the following figures.

FIG. 1 is a schematic diagram of a system connection structure according to the present invention;

FIG. 2 is a schematic diagram of a connection structure of a commodity order management subsystem according to the present invention;

fig. 3 is a schematic diagram of the connection structure of the merchandise warehousing management subsystem according to the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a supply chain intelligent management system based on cloud storage visualization includes a supply chain formed by a supplier end, a cloud storage end and a purchasing end, and includes a commodity order management subsystem, a cloud storage database and a commodity storage management subsystem, wherein the commodity order management is a management formed by the purchasing end and the cloud storage end, and the commodity storage management is a management formed by the supplier end and the cloud storage end.

The cloud storage database is used for storing a defined bin region of commodities corresponding to each supplier entering the stationary cloud bin in the cloud bin, storing a specified bin region of commodities corresponding to each supplier entering the stationary cloud bin in the defined bin region, and storing images of commodities corresponding to each commodity in the defined bin region and stored by each supplier when each commodity starts to be stored.

Referring to fig. 2, the commodity order management subsystem includes a commodity order decomposition module, an order management link generation module, an order delivery sub-warehouse area proximity selection module, a delivered commodity online selection module, a logistics transportation side suitable selection module, and an order management content uploading module, the commodity order decomposition module is respectively connected with the order management link generation module and the order delivery sub-warehouse area proximity selection module, the order delivery sub-warehouse area proximity selection module is respectively connected with the delivered commodity online selection module and the logistics transportation side suitable selection module, the order delivery sub-warehouse area proximity selection module, the delivered commodity online selection module, and the logistics transportation side suitable selection module are all connected with the order management content uploading module, and the order management content uploading module is connected with the order management link generation module.

The commodity order decomposition module is used for submitting a commodity order placed by the purchasing end to the cloud storage end by the supplier end, the cloud storage end decomposes the content of the submitted commodity order and extracts order parameters from the commodity order, and the order parameters comprise the supplier name, the order commodity name, the order address and the contact way of a purchaser.

The order management link generation module is used for extracting the order number and the contact way of the buyer from the order parameters, generating a management link corresponding to the commodity order according to the order number, and simultaneously sending the management link to the buyer for the buyer to watch.

The order delivery sub-warehouse area nearby selection module is used for extracting a supplier name, an order commodity name and an order address from order parameters, and accordingly, nearby selection is carried out on the delivery sub-warehouse area of the commodity order in the cloud warehouse, and the specific operation process of the order delivery sub-warehouse area nearby selection module comprises the following steps:

s1, matching the extracted supplier name with a compartment area of each supplier corresponding to a commodity entering a stationary cloud compartment in a cloud storage database in a cloud compartment to obtain a compartment area of the commodity corresponding to the supplier in the cloud compartment;

s2, comparing the extracted commodity name of the order with the specified bin regions, in the cloud storage database, in which the commodities corresponding to the supplier are correspondingly stored in various commodities in the partitioned bin regions, and screening the specified bin regions, in the cloud bin, of the commodity of the order;

and S3, if only one specified sub-warehouse area of the commodity of the order form is in the cloud warehouse, the specified sub-warehouse area is the delivery sub-warehouse area of the commodity order form in the cloud warehouse, if more than one specified sub-warehouse area of the commodity of the order form in the cloud warehouse is in the cloud warehouse, the position of each specified sub-warehouse area is respectively positioned, the position of each specified sub-warehouse area is compared with the position of the order form address, and the specified sub-warehouse area closest to the order form address is screened out to be used as the delivery sub-warehouse area of the commodity order form in the cloud warehouse.

According to the embodiment of the invention, the logistics transportation distance can be effectively reduced by selecting the commodity orders nearby in the delivery sub-warehouse area in the cloud warehouse, so that a buyer can receive the commodities as soon as possible.

The online goods delivery selection module is used for performing online selection on the goods for delivery of the order in the delivery warehouse area by the purchasing end according to the delivery warehouse area of the goods order in the cloud warehouse, and the online selection specifically comprises the following steps:

step 1: according to the goods order, dispatching a goods taking robot in the delivery warehouse area according to the delivery warehouse area of the goods order in the cloud warehouse;

step 2: the goods taking robot carries out original object shooting on the goods stored in the delivery sub-bin area according to the carried high-definition camera, uploads the shot goods to a delivery goods online selection interface in the link of the order management link, and simultaneously informs a buyer in time;

and 3, step 3: a buyer enters an online selection interface of the delivery goods corresponding to an order by clicking the link of an order management link, so that the delivery goods are manually clicked and selected according to the original image of the goods displayed on the online selection interface;

the online selection of the goods for delivery in the embodiment of the invention can enable a purchaser to have specific visual impression on the actual style of the order goods in advance, and when the purchaser observes that the actual style of the order goods is obviously inconsistent with the style of the goods displayed on the purchase platform, the purchase can be stopped, thereby avoiding the goods return trouble caused by the fact that the actual style of the goods is found to be inconsistent with the style of the goods displayed on the purchase platform only after the goods are received, because the purchase is stopped in the online selection, the goods are not delivered at this time, and further the transportation cost of the commodity flow is not generated, meanwhile, the purchaser not only saves the time for selecting other goods, but also avoids the trouble of goods return; and on the other hand, the independent selection of the order commodity by the buyer is realized.

And after the purchasing end selects the goods online, the goods online selection module packages the selected goods and collects the video of the packaging process.

The logistics transport party suitable selection module is used for selecting a suitable logistics transport party for the commodity order, and the specific operation steps of the logistics transport party suitable selection module comprise:

the first step is as follows: after packaging the delivery goods, judging whether logistics pickup personnel exist in the delivery sub-warehouse area at the current time point, if not, executing a third step, if so, counting the number of the logistics pickup personnel, acquiring the logistics transportation party name corresponding to each logistics pickup personnel, further comparing the logistics transportation party names corresponding to each logistics pickup personnel, and counting the existing logistics transportation party names in the delivery sub-warehouse area at the current time point;

the second step is that: extracting an order address from order parameters, and acquiring the number of logistics receiving points existing around the order address and the names of logistics transportation parties corresponding to the logistics receiving points and cooperating with the logistics receiving points, further matching the names of the logistics transportation parties existing in the delivery sub-warehouse with the names of the logistics transportation parties corresponding to the logistics receiving points, and counting the number of the successfully matched logistics transportation parties, wherein if only one logistics transportation party is successfully matched, the logistics transportation party is used as a suitable logistics transportation party corresponding to the commodity order, otherwise, the delivery distance from the position of the logistics receiving point corresponding to the successfully matched logistics transportation party to the position of the order address is counted, and the logistics transportation party corresponding to the logistics receiving point with the shortest delivery distance is selected as the suitable logistics transportation party corresponding to the commodity order;

the third step: and screening a logistics collection point closest to the position of the order address according to the method in the second step, taking a logistics transport party cooperating in the logistics collection point as a suitable logistics transport party corresponding to the commodity order, and reserving the logistics transport party corresponding to the logistics pickup at the moment.

According to the embodiment of the invention, the commodity orders are selected according to the conditions, so that the problem of poor logistics transportation timeliness caused by logistics pick-up appointment on each commodity order is avoided powerfully, the logistics transportation timeliness can be guaranteed, unnecessary waiting is avoided, and the goods pick-up of purchasers can be facilitated.

The order management content uploading module is used for obtaining the position of the commodity order in the delivery sub-warehouse area in the cloud warehouse, the commodity packaging video, the name of the logistics transportation party and the logistics transportation order number, and obtaining the logistics transportation progress in real time according to the logistics order number, so that the position of the delivery sub-warehouse area, the commodity packaging video, the name of the logistics transportation party, the logistics transportation order number and the logistics transportation progress information are uploaded to the commodity order management link to be linked.

In the embodiment of the invention, the management link corresponding to the commodity order is generated according to the order number in the commodity order management process, the ex-warehouse commodity online selection interface is constructed in the management link, the purchasing end performs the ex-warehouse commodity online selection, the ex-warehouse commodity packaging video, the name of the logistics transportation party, the number of the logistics freight bill and the logistics transportation progress information are uploaded to the management link, the purchasing end intuitively knows the content of each management link by clicking the management link, the visual characteristic of the content of the order management link is embodied, the automatic selection degree of the purchasing end in the commodity order management process is improved, on one hand, the participation degree of the purchasing end in the commodity order management process is enhanced, a purchaser can select satisfactory delivery commodities, the problem of delivery commodity quality caused by the fact that the delivery commodities are directly and automatically extracted by the cloud storage end is effectively solved, on the other hand, the situation that the purchasing end cannot trace back due to the fact that the actual quality of the delivery commodities cannot be known in advance and the commodity quality is defective when the commodity is received is greatly avoided, and further the rights and interests of the purchaser are guaranteed to a certain extent.

Please refer to fig. 3, the commodity storage management subsystem includes an entrance provider statistical module, a commodity storage management service link generation module, a commodity storage loss management module, a commodity purchase approval management module and a storage management content uploading module, and the entrance provider statistical module is respectively connected with the commodity storage management service link generation module, the commodity storage loss management module and the commodity purchase approval management module are both connected with the storage management content uploading module, and the storage management content uploading module is connected with the commodity storage management service link generation module.

The in-parking supplier counting module is used for counting the number of suppliers parked in the cloud cabin and numbering the suppliers according to a preset sequence, wherein the number is respectively marked as 1, 2.

The commodity storage management service link generation module is used for generating commodity storage management service links corresponding to all suppliers at set management time intervals, sending the commodity storage management service links to the suppliers and watching the commodities by the suppliers.

The management time interval mentioned in the embodiments of the present invention may be one week, one month, two months, three months, etc.

In this embodiment, by setting the management time interval, the merchandise warehousing management service link corresponding to each management time interval can be provided for the supplier in real time, so as to realize dynamic monitoring of the merchandise warehousing management, and the supplier can conveniently and purposefully regulate and control the merchandise types stored in the corresponding storage of the next management time interval according to the merchandise warehousing management service link corresponding to the previous management time interval, thereby being beneficial to reducing the merchandise warehouse loss.

The commodity storage loss management module is used for acquiring images of all commodities stored in the cloud storage by each supplier from the cloud storage end within a set management time interval and evaluating the easy-to-lose indexes of various commodities corresponding to each supplier, and the specific evaluation process executes the following steps:

(1) Counting the types and the quantity of commodities stored in a compartment area by each supplier in a cloud compartment, numbering the commodities stored in the cloud compartment by each supplier, sequentially marking the commodities as A, B, A, H, A, N, and simultaneously acquiring storage parameters corresponding to the commodities, wherein the storage parameters comprise the total stock quantity corresponding to the commodities and the storage starting date corresponding to each commodity in the stock;

(2) Acquiring images of all commodities corresponding to various commodities of various suppliers in a cloud cabin division and subdivision area at a set management time interval;

(3) Comparing the collected commodity images with the images when the commodities are stored correspondingly from the cloud storage database so as to analyze the images for each commodityThe damage ratio coefficient of each commodity corresponding to the quotient is recorded as lambda _iH The specific analysis method comprises the steps of counting the quantity of damaged commodities in various commodities corresponding to each supplier, extracting the total inventory quantity corresponding to the commodities from the storage parameters, and dividing the quantity of the damaged commodities in the commodities corresponding to the suppliers by the total inventory quantity corresponding to the commodities to obtain the damage proportion coefficient of the commodities corresponding to the suppliers;

(4) Extracting the storage starting date of each commodity in the inventory corresponding to each commodity from the storage parameters, and acquiring the current date, so as to calculate the average storage time length of each commodity corresponding to each supplier, and recording the average storage time length as T _iH The calculation method comprises the steps of respectively subtracting the storage starting date of each commodity in the stock of each commodity corresponding to each supplier from the current date to obtain the storage duration of each commodity in the stock of each commodity corresponding to each supplier, and then carrying out average calculation on the storage durations to obtain the average storage duration of each commodity corresponding to each supplier;

(5) Evaluating the easy-to-store loss index of each supplier corresponding to each commodity according to the damage ratio coefficient and the average storage time length of each supplier corresponding to each commodity, and marking as eta _iH ，

η _iH And the index is expressed as the stock damage tendency index of the ith supplier corresponding to the ith commodity, wherein the larger the damage ratio coefficient is, the shorter the average storage time is, and the larger the stock damage tendency index is.

The commodity purchase approval management module is used for counting the shipment amount and the return amount of each supplier corresponding to each commodity in the cloud warehouse within a set management time interval, and calculating the purchase approval degree of each supplier corresponding to each commodity from the shipment amount and the return amount.

The warehouse management content uploading module is used for uploading all commodity images, the easily damaged index and the purchase acceptance degree corresponding to various commodities of each supplier in a set management time interval to a commodity warehouse management service link of the supplier in the set management time interval, wherein the commodity images are used as the visual quality of commodity storage.

In the embodiment of the invention, in the process of commodity storage management, the cloud storage end generates commodity storage management service links corresponding to all suppliers in the set management time interval, all commodity images, commodity names easy to damage and purchase acceptance degrees corresponding to all commodities, which are stored in the cloud storage by all suppliers in the set management time interval, are uploaded in the corresponding management service links, and the suppliers can visually check the commodity storage management service links by clicking the management service links, so that the management service range of commodity storage is expanded, the suppliers can know the visual quality, the condition easy to damage and the purchase acceptance condition of commodities stored in the cloud storage in real time at all management time intervals, and various accurate services of commodity storage are successfully provided for the suppliers entering the cloud storage.

According to the invention, the supply chain management formed by the supplier end, the cloud storage end and the purchasing end is divided into commodity order management and commodity storage management, wherein the commodity order management is management formed by the purchasing end and the cloud storage end, and the commodity storage management is management formed by the supplier end and the cloud storage end.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (10)

1. The utility model provides a supply chain intelligent management system based on cloud storehouse is visual which characterized in that: the supply chain in the system is formed by a supplier end, a cloud storage end and a purchasing end, and the system comprises a commodity order management subsystem, a cloud storage database and a commodity storage management subsystem;

the commodity order management subsystem comprises a commodity order decomposition module, an order management link generation module, an order delivery warehouse area nearby selection module, a delivery commodity online selection module, a logistics transport side suitable selection module and an order management content uploading module;

the commodity order decomposition module is used for submitting a commodity order placed by a purchasing end to a cloud storage end by a supplier end, and the cloud storage end decomposes the content of the submitted commodity order and extracts order parameters from the commodity order;

the order management link generation module is used for extracting an order number and a buyer contact way from order parameters, generating a management link corresponding to the commodity order according to the order number, sending the management link to the buyer and watching the management link by the buyer;

the order delivery sub-warehouse area nearby selection module is used for extracting a supplier name, an order commodity name and an order address from order parameters and accordingly carrying out nearby selection on the delivery sub-warehouse area of the commodity order in the cloud warehouse;

the delivery commodity online selection module is used for performing online selection on delivery commodities of the order in delivery warehouse areas by a purchasing end according to delivery warehouse areas of the commodity order in the cloud warehouse, and packaging the selected delivery commodities;

the logistics transport party suitable selection module is used for selecting a suitable logistics transport party for the commodity order;

the order management content uploading module is used for acquiring the position of the commodity order in the delivery sub-warehouse area in the cloud warehouse, a commodity packaging video, a logistics transportation party name and a logistics freight note number, and uploading the commodity order to a commodity order management link for linking;

the commodity warehousing management subsystem comprises a resident supplier statistics module, a commodity warehousing management service link generation module, a commodity warehousing damage management module, a commodity purchase approval management module and a warehousing management content uploading module;

the resident supplier counting module is used for counting the number of suppliers resident in the cloud storage and numbering the suppliers according to a preset sequence, wherein the suppliers are marked as 1,2, a.

The commodity storage management service link generation module is used for generating commodity storage management service links corresponding to all suppliers at a set management time interval, sending the commodity storage management service links to the suppliers and watching the commodity storage management service links by the suppliers;

the commodity storage warehouse damage management module is used for acquiring images of all commodities stored in the cloud warehouse by the cloud warehouse end in a set management time interval, and evaluating the easy warehouse damage indexes of various commodities corresponding to various suppliers;

the commodity purchase approval management module is used for counting the shipment quantity and the return quantity corresponding to various commodities of each supplier in the cloud storehouse in a set management time interval, and calculating the purchase approval degree corresponding to various commodities of each supplier;

the warehouse management content uploading module is used for uploading all commodity images, the easy warehouse loss indexes and the purchase acceptance degrees corresponding to various commodities of each supplier to the commodity warehouse management service links corresponding to the suppliers within a set management time interval.

2. The cloud storage visualization-based supply chain intelligent management system of claim 1, wherein: the order parameters include a supplier name, an order commodity name, an order address and a buyer contact.

3. The cloud storage visualization-based supply chain intelligent management system of claim 1, wherein: the specific operation process selected nearby by the delivery sub-warehouse comprises the following steps:

s1, matching the extracted supplier name with a compartment area of each supplier corresponding to a commodity entering a stationary cloud compartment in a cloud storage database in a cloud compartment to obtain a compartment area of the commodity corresponding to the supplier in the cloud compartment;

s2, comparing the extracted order commodity name with the specified bin dividing areas in the cloud storage database, in which the commodities corresponding to the supplier are correspondingly stored in various commodities in the bin dividing areas, and screening the specified bin dividing areas of the order commodities in the cloud bins;

and S3, if only one appointed sub-warehouse area of the order commodity in the cloud warehouse is provided, the appointed sub-warehouse area is the delivery sub-warehouse area of the commodity order in the cloud warehouse, if more than one appointed sub-warehouse area of the order commodity in the cloud warehouse is provided, the position of each appointed sub-warehouse area is respectively positioned, the position of each appointed sub-warehouse area is compared with the position of the order address, and the appointed sub-warehouse area closest to the order address is screened out to be used as the delivery sub-warehouse area of the commodity order in the cloud warehouse.

4. The cloud storage visualization-based supply chain intelligent management system of claim 1, wherein: the specific process of the online selection of the shipped goods is as follows:

step 1: according to the goods order, dispatching a goods taking robot in the delivery warehouse area according to the delivery warehouse area of the goods order in the cloud warehouse;

and 2, step: the goods taking robot carries out original object shooting on the goods stored in the delivery sub-bin area according to the carried high-definition camera, uploads the shot goods to a delivery goods online selection interface in the link of the order management link, and simultaneously informs a buyer in time;

and step 3: and the buyer enters the delivery commodity online selection interface corresponding to the order by clicking the link of the order management link, so that the delivery commodity is manually clicked and selected according to the commodity original image displayed on the online selection interface.

5. The cloud storage visualization-based supply chain intelligent management system of claim 1, wherein: the specific operation steps of the logistics transportation party suitable selection module for selecting the suitable logistics transportation party for the commodity order comprise:

the first step is as follows: after packaging the delivery goods, judging whether logistics pickup personnel exist in the delivery sub-warehouse area at the current time point, if not, executing a third step, if so, counting the number of the logistics pickup personnel, acquiring the logistics transportation party name corresponding to each logistics pickup personnel, further comparing the logistics transportation party names corresponding to each logistics pickup personnel, and counting the existing logistics transportation party names in the delivery sub-warehouse area at the current time point;

the second step is that: extracting an order address from order parameters, and acquiring the number of logistics receiving points existing around the order address and the names of logistics transportation parties corresponding to the logistics receiving points and cooperating with the logistics receiving points, further matching the names of the logistics transportation parties existing in the delivery sub-warehouse with the names of the logistics transportation parties corresponding to the logistics receiving points, and counting the number of the successfully matched logistics transportation parties, wherein if only one logistics transportation party is successfully matched, the logistics transportation party is used as a suitable logistics transportation party corresponding to the commodity order, otherwise, the delivery distance from the position of the logistics receiving point corresponding to the successfully matched logistics transportation party to the position of the order address is counted, and the logistics transportation party corresponding to the logistics receiving point with the shortest delivery distance is selected as the suitable logistics transportation party corresponding to the commodity order;

the third step: and screening a logistics collection point closest to the position of the order address according to the method in the second step, taking the logistics transport party cooperating in the logistics collection point as a suitable logistics transport party corresponding to the commodity order, and reserving the logistics transport party corresponding to the logistics pickup at the moment.

6. The cloud storage visualization-based supply chain intelligent management system of claim 1, wherein: the order management content uploading module also obtains the logistics transportation progress of the commodity order in real time and uploads the logistics transportation progress.

7. The cloud storage visualization-based supply chain intelligent management system of claim 1, wherein: the method comprises the following steps of:

(1) Counting the types and the quantity of commodities stored in a compartment area by each supplier in a cloud compartment, numbering the commodities stored in the cloud compartment by each supplier, sequentially marking the commodities as A, B, A, H, A, N, and simultaneously acquiring storage parameters corresponding to the commodities;

(2) Acquiring images of all commodities corresponding to various commodities of various suppliers in a cloud cabin division and subdivision area at a set management time interval;

(3) Comparing the collected commodity images with the images when the commodities are stored correspondingly from the cloud storage database, analyzing the damage ratio coefficient of each supplier corresponding to each commodity, and recording as lambda _iH ；

(4) Extracting the storage starting date of each commodity in the inventory corresponding to each commodity from the storage parameters, and acquiring the current date, so as to calculate the average storage time length of each commodity corresponding to each supplier, and recording the average storage time length as T _iH ；

(5) Evaluating the easy-to-store loss index of each supplier corresponding to each commodity according to the damage ratio coefficient and the average storage time length of each supplier corresponding to each commodity, and marking as eta _iH ，

8. The cloud storage visualization-based supply chain intelligent management system of claim 7, wherein: the storage parameters comprise the total stock quantity corresponding to various commodities and the starting storage date corresponding to each commodity in the stock.

9. The cloud storage visualization-based supply chain intelligent management system of claim 7, wherein: the calculation method of the average storage duration of the various commodities corresponding to each supplier is that the storage duration of each commodity in the inventory of the various commodities corresponding to each supplier is obtained by respectively subtracting the storage starting date of each commodity in the inventory of the various commodities corresponding to each supplier from the current date, and then the average value is calculated to obtain the average storage duration of each commodity corresponding to each supplier.

10. The cloud storage visualization-based supply chain intelligent management system of claim 1, wherein: the calculation method of the purchase acceptance of each commodity corresponding to each supplier is to divide the shipment quantity of each commodity by the return quantity.

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