CN113537889A

CN113537889A - Supply chain management method and system based on intelligent refrigeration house

Info

Publication number: CN113537889A
Application number: CN202110803206.8A
Authority: CN
Inventors: 郝晓柯; 陈灿良; 陈伟
Original assignee: Shenzhen Yizhilian Technology Co ltd
Current assignee: Shenzhen Yizhilian Technology Co ltd
Priority date: 2021-07-15
Filing date: 2021-07-15
Publication date: 2021-10-22

Abstract

The application relates to a supply chain management method and system based on an intelligent refrigeration house, wherein the method comprises the following steps: receiving commodity ex-warehouse information; inquiring the stock commodity name consistent with the target ex-warehouse commodity name in a preset stock commodity information base, wherein the stock commodity information comprises the stock commodity name, the identity information, the effective expiration date and the storage position information corresponding to each stock commodity; sequentially selecting from the inquired stock commodities from front to back according to the effective deadline until the quantity of the selected stock commodities is equal to the commodity ex-warehouse quantity corresponding to the target ex-warehouse commodity name; and generating and displaying a commodity selection list according to the stock commodity information of the selected stock commodity, wherein the commodity selection list comprises the stock commodity name, the storage position information and the identity identification information corresponding to the selected stock commodity. The application has the technical effects that: the whole goods taking process is time-saving and labor-saving, and the efficiency is improved.

Description

Supply chain management method and system based on intelligent refrigeration house

Technical Field

The application relates to the field of intelligent refrigeration houses, in particular to a supply chain management method and system based on an intelligent refrigeration house.

Background

At present, after purchasing a large amount of commodities, warehouse managers usually store the commodities in a warehouse and divide the commodities into normal-temperature storage and low-temperature storage according to the storage requirements of the commodities. When goods need to be taken, the warehouse keeper can enter the warehouse, the goods which need to be taken are taken out from the warehouse, and when the goods in the warehouse are insufficient, the warehouse keeper can put the goods into the warehouse to replenish the goods.

The refrigerated warehouse in the hospital can store a large amount of commodities such as reagents and test raw materials, and when taking the commodities, a warehouse keeper can search out the positions of the commodities needing to be taken out in the warehouse, and when taking the commodities, the warehouse keeper can check the production date of each commodity so as to select the commodity with the production date ahead and use the commodity with priority.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the warehouse keeper needs to spend more time looking for the storage position of target commodity in the storehouse, when taking commodity, needs to spend more time looking over the commodity name and the date of production of every commodity one by one, leads to whole get the goods process waste time and energy, and efficiency is lower.

Disclosure of Invention

In order to improve the whole process of getting goods and waste time and energy, the lower problem of efficiency, this application provides one kind.

In a first aspect, the present application provides a management method and a system method for warehouse entry and exit of merchants, which adopt the following technical solutions:

the method comprises the following steps:

receiving commodity ex-warehouse information sent by an approval terminal, wherein the commodity ex-warehouse information comprises ex-warehouse commodity names and commodity ex-warehouse quantity corresponding to each ex-warehouse commodity name;

inquiring a stock commodity name consistent with a target ex-warehouse commodity name in a preset stock commodity information base, wherein the stock commodity information comprises a stock commodity name, identity identification information, an effective expiration date and storage position information corresponding to each stock commodity;

sequentially selecting the inquired stock commodities from front to back according to the effective deadline until the quantity of the selected stock commodities is equal to the commodity ex-warehouse quantity corresponding to the target ex-warehouse commodity name;

and generating and displaying a commodity picking list according to the inventory commodity information of the selected inventory commodity, wherein the commodity picking list comprises an inventory commodity name, storage position information and identity identification information corresponding to each selected inventory commodity.

By adopting the technical scheme, when taking goods, a warehouse manager can select the inventory according to the goods, quickly determine the storage position of the target goods out of the warehouse in the warehouse, and when taking goods, the earliest production date of the goods can be selected by the automatic taking system according to the production date, so that the whole goods taking process is time-saving and labor-saving, and the efficiency is improved.

Optionally, after generating and displaying a goods sorting list according to the inventory goods information of the selected inventory goods, the method further includes:

acquiring identity identification information corresponding to each ex-warehouse commodity sent by a rechecking terminal;

receiving a rechecking end instruction input by a warehouse manager, judging whether all the identity identification messages sent by the rechecking terminal are consistent with all the identity identification information in the commodity picking list, and if so, deleting the inventory commodity information corresponding to each inventory commodity in the commodity picking list from the inventory commodity information base;

otherwise, generating and displaying an ex-warehouse abnormal prompt, wherein the ex-warehouse abnormal prompt comprises the identity identification information with the inconsistent condition.

By adopting the technical scheme, when the commodities are delivered out of the warehouse, the system can automatically recheck the information of the commodities which are actually delivered out of the warehouse and the information of the commodities which are planned to be delivered out of the warehouse, so that the possibility that warehouse managers miss or take more commodities is reduced.

Optionally, the method further includes:

comparing the inventory quantity of each inventory commodity in the inventory commodity information base with a preset quantity lower limit threshold respectively, and judging whether inventory commodities with the inventory quantity lower than the quantity lower limit threshold exist or not;

if so, generating and displaying inventory early warning information, wherein the inventory early warning information comprises low inventory commodity names and commodity inventory quantities corresponding to the low inventory commodity names, and the low inventory commodity names are commodity names corresponding to inventory commodities with the commodity inventory quantities lower than the quantity lower limit threshold.

By adopting the technical scheme, when the inventory of the commodities is insufficient, the system can automatically generate and display the inventory early warning information so as to remind a warehouse keeper of replenishing the commodities in time.

Optionally, the generating and displaying inventory early warning information includes:

counting the names of the low-stock commodities and determining the types and the quantity of the low-stock commodities;

judging whether the type quantity of the low-inventory commodities is larger than a preset low-inventory type threshold value or not, if so, generating and displaying inventory early warning information, wherein the inventory early warning information comprises all low-inventory commodity names and the commodity quantity corresponding to each low-inventory commodity name;

receiving a commodity purchasing instruction, wherein the commodity purchasing instruction comprises the name of the low-inventory commodity;

subtracting the commodity stock quantity from the commodity standard quantity preset by each low-stock commodity name to obtain the quantity to be purchased corresponding to each low-stock commodity name;

and generating and displaying a commodity purchasing plan, wherein the commodity purchasing plan comprises all low-inventory commodity names and the corresponding quasi-purchasing quantities.

By adopting the technical scheme, when a certain amount of commodity types are not enough in stock, the system generates and displays the stock early warning information, so that the possibility of frequent early warning is reduced. After the warehouse manager confirms the purchase, the system can automatically generate a commodity purchase plan so as to facilitate the warehouse manager to purchase commodities in batches.

Optionally, the method further includes:

receiving commodity warehousing information sent by an approval terminal, wherein the commodity warehousing information comprises all warehousing commodity names and commodity warehousing quantity corresponding to each warehousing commodity name;

according to the warehousing commodity names, searching a storage scheme corresponding to each warehousing commodity name in a preset storage scheme database, wherein the storage scheme comprises storage position information;

and generating and displaying commodity pre-warehousing information according to all the searched storage position information, wherein the commodity pre-warehousing information comprises warehousing commodity names and pre-warehousing position information corresponding to each warehousing commodity name.

By adopting the technical scheme, when the commodities are put in storage, the warehouse keeper can quickly know the position of each type of commodity to be stored in storage according to the commodity shelf information, so that the commodity storage efficiency is improved.

Optionally, the storage scheme further includes an on-shelf sequence number;

after the commodity pre-warehousing information is generated and displayed according to all the searched storage location information, the method further comprises the following steps:

and according to the shelving sequence number, sequencing all the warehoused commodity names from small to large according to the shelving sequence number to generate and display a shelving sequence list.

By adopting the technical scheme, in the process of warehousing the commodities, the warehouse keeper can sequentially store various commodities on shelves according to the guidance of the shelf-loading sequence list, so that the efficiency of warehousing the commodities is further improved.

Optionally, after receiving the commodity warehousing information sent by the approval terminal, the method further includes:

generating identity identification information corresponding to each warehousing commodity one to one according to a preset identity identification information generation rule;

after the commodity pre-warehousing information is generated and displayed according to all the searched storage schemes, the method further comprises the following steps:

generating and storing warehousing commodity information, wherein the warehousing commodity information comprises a warehousing commodity name, identity identification information and pre-warehousing position information corresponding to each warehousing commodity, and the pre-warehousing position information is terminal identification information of a storage terminal;

receiving identity identification information and warehoused position information corresponding to target warehoused commodities sent by a storage terminal, wherein the warehoused position information is terminal identification information corresponding to the storage terminal;

judging whether the warehousing position information corresponding to the target warehousing commodity is consistent with the pre-warehousing position information or not, if so, generating and displaying commodity warehousing success information;

receiving a warehousing end instruction sent by a warehouse manager target storage terminal;

judging whether the identity identification information sent by the target storage terminal covers all the identity identification information corresponding to the target storage terminal in the warehousing commodity information;

if so, generating and displaying commodity warehousing completion information;

and if not, generating and displaying commodity warehousing abnormity prompting information, wherein the commodity warehousing abnormity prompting information comprises the identification information which is not sent by the target storage terminal and the warehousing commodity name corresponding to the identification information.

By adopting the technical scheme, in the process of warehousing commodities, when a warehouse manager puts each commodity into the corresponding storage terminal, the storage terminal senses the identification information of the commodity and sends the identification information to the system, the system rechecks the received identification information to reduce the possibility of missing the commodity, when the storage terminal sends the identification information to the system, the storage terminal sends the warehousing position information corresponding to each commodity to the system, and the system compares the warehousing position and the pre-warehousing position of the commodity, so that the possibility of misplacing the commodity is reduced.

In a second aspect, the present application provides a management device for warehouse entry and exit of merchants, which adopts the following technical solutions: the information receiving module is used for receiving commodity ex-warehouse information sent by the examination and approval terminal, wherein the commodity ex-warehouse information comprises ex-warehouse commodity names and commodity ex-warehouse quantity corresponding to each ex-warehouse commodity name;

the information query module is used for querying inventory commodity names consistent with the target ex-warehouse commodity names in a preset inventory commodity information base, and the inventory commodity information comprises inventory commodity names, identity identification information, effective expiration dates and storage position information corresponding to each inventory commodity;

the commodity selection module is used for sequentially selecting from the inquired stock commodities from front to back according to the effective deadline until the number of the selected stock commodities is equal to the commodity ex-warehouse number corresponding to the target ex-warehouse commodity name;

and the information generation module is used for generating and displaying a commodity picking list according to the inventory commodity information of the selected inventory commodity, wherein the commodity picking list comprises an inventory commodity name, storage position information and identity identification information corresponding to each selected inventory commodity.

In a third aspect, the present application provides an apparatus, which adopts the following technical solution: comprising a memory and a processor, said memory having stored thereon a computer program which can be loaded by the processor and which performs the method of any of claims 1 to 7.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions: a computer program which can be loaded by a processor and which performs the method according to any one of claims 1 to 7.

Through the technical scheme, when goods are taken, a warehouse manager can select the inventory according to the goods, quickly determine the storage position of the target goods out of the warehouse in the warehouse, and when the goods are taken, the goods with the earliest production date can be automatically taken and are screened out according to the production date by the system, so that the whole goods taking process is time-saving and labor-saving, and the efficiency is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when taking goods, the warehouse keeper can quickly determine the storage position of the target goods out of the warehouse in the warehouse according to the goods picking list, and when taking goods, the system can automatically take the goods with the earliest production date which are screened out according to the production date, so that the whole goods taking process is time-saving and labor-saving, and the efficiency is improved;

2. when the commodities are put in storage, the warehouse keeper can quickly know the position of each commodity to be stored in storage according to the commodity shelf information, so that the commodity storage efficiency is improved.

Drawings

Fig. 1 is a flowchart of a supply chain management method and system based on an intelligent freezer in an embodiment of the present application.

FIG. 2 is a flow chart for embodying an automated flow of generating a merchandise procurement plan in an embodiment of the application.

Fig. 3 is a flowchart for embodying a commodity warehousing process in the embodiment of the present application.

Fig. 4 is a block diagram illustrating a supply chain management device based on an intelligent freezer according to an embodiment of the present application.

Fig. 5 is a block diagram illustrating a supply chain management device based on an intelligent freezer according to an embodiment of the present invention.

Fig. 6 is a block diagram illustrating a supply chain management device based on an intelligent freezer according to an embodiment of the present invention.

Description of reference numerals: 401. an information receiving module; 402. an information query module; 403. a commodity selection module; 404. an information generation module; 501. a quantity judgment module; 601. a quantity calculation module; 602. and a plan generation module.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses a supply chain management method based on an intelligent refrigeration house.

The method is applied to inventory commodity management, and can be realized by a server, wherein the server can comprise a processor, a memory, a display and a communication component, the processor can process instructions input by a warehouse administrator and acquired data, the memory can be used for storing data required and generated in the following processing process, the display can be used for displaying an interface and has a touch screen function, and the communication component can be used for receiving and sending data between an approval terminal and a storage terminal. The storage terminal is used for storing commodities, the storage terminal can comprise a reader, a display and a communication component, the reader is used for sensing identity representation information on the commodities, the display is used for displaying an interface and can have a touch screen function, the communication component is used for receiving and sending data with the server, and the storage terminal can be an intelligent shelf. And the approval terminal is used for receiving and sending data with the server. The warehouse manager can store or take out commodities into the storage terminal according to the data sent by the approval terminal, the storage terminal senses the commodities taken out or stored in the storage terminal and sends the sensed identification information to the system, and the system processes and rechecks the received data. In this embodiment, intelligent freezer can include central storehouse and a plurality of second grade storehouses, and central storehouse can be used for concentrating the storing, and the central storehouse includes intelligent terminals such as intelligent goods shelves, intelligent rechecking table, control large-size screen. The second-level storehouse can be a distributed storehouse with an integrated tube, a management end is arranged in the storehouse, a using end is arranged outside the storehouse, and the second-level storehouse can contain intelligent goods shelves, a bidirectional-door intelligent refrigerator, a large monitoring screen and other intelligent terminals.

And S10, receiving the commodity ex-warehouse information sent by the approval terminal.

Specifically, the staff of the approval terminal checks the commodity ex-warehouse information and sends the checked commodity ex-warehouse information to the system, wherein the commodity ex-warehouse information comprises ex-warehouse commodity names and commodity ex-warehouse quantity corresponding to each ex-warehouse commodity name.

And S11, generating and displaying the goods sorting list.

Specifically, after receiving the commodity ex-warehouse information, the system queries the stock commodity name consistent with each ex-warehouse commodity name in a preset stock commodity information base according to the ex-warehouse commodity name. The stock commodity information base comprises stock commodity information which is pre-recorded by a worker, and the stock commodity information comprises a stock commodity name, identity identification information, an effective expiration date and storage position information corresponding to each commodity. The identification information can be an FRID code, each commodity can be pasted with an electronic tag, a radio frequency chip is arranged in the electronic tag, and the identification information can also be a unique number of each commodity. The system sequentially selects the inquired inventory commodities from front to back according to the effective deadline until the quantity of each inventory commodity selected is equal to the commodity ex-warehouse quantity of the corresponding ex-warehouse commodity name, and then generates a commodity selection list. The goods sorting list comprises the corresponding goods name, storage position information and identification information of each selected goods, the same goods names are put together, and the warehouse manager can print out the goods sorting list so as to sort the stocks in the warehouse according to the information on the goods sorting list.

And S12, acquiring the identity information sent by the rechecking terminal.

Specifically, after the warehouse keeper selects the commodities which need to be taken out of the warehouse, the commodities are sequentially placed at the rechecking terminal, when the identification information is the FRID code, the rechecking terminal can sequentially sense the electronic tags on the commodities, so that the identification information of each commodity is obtained, the sensed identification information is sent to the system, and the rechecking terminal can be a reader-writer (also called a reader). When the identification information is the unique number of each commodity, the warehouse keeper can manually input the number.

And S13, judging whether the identification information is abnormal.

Specifically, after the warehouse manager sequentially senses the commodities at the rechecking terminal, the warehouse manager inputs a command of rechecking completion, the system compares the received identity identification information sent by the rechecking terminal with the identity identification information in the commodity sorting list, judges whether the identity identification information sent by the rechecking terminal is inconsistent with the identity identification information in the commodity ex-warehouse information, if not, the commodities in the commodity ex-warehouse information are ex-warehouse, and then S14 is executed; otherwise, S15 is executed indicating that the warehouse keeper may take a wrong or missing item.

And S14, generating and displaying an ex-warehouse completion prompt.

Specifically, after the system checks that the identification information sent by the rechecking terminal is correct, a warehouse-out completion reminder is generated and displayed, for example, the warehouse-out completion reminder is as follows: "successful delivery of the commodity from the warehouse". And deleting the inventory information corresponding to each inventory item in the item sorting list from the inventory item information base.

And S15, generating and displaying an ex-warehouse abnormal prompt.

Specifically, after the system checks the identity identification information sent by the rechecking terminal, the identity identification information inconsistent with each other in the identity identification information in the commodity sorting list and the identity representation information sent by the composite terminal is selected and marked as abnormal identity identification information, and an ex-warehouse abnormal prompt is generated and displayed.

Optionally, the supply chain management method based on the intelligent refrigerator further includes a process for automatically generating a commodity procurement plan.

As shown in fig. 2, the process includes the following steps:

and S20, determining the quantity of the low-stock commodities.

Specifically, after the commodities are taken out of the warehouse, the system automatically deletes inventory commodity information corresponding to the commodities taken out of the warehouse from an inventory commodity information base, monitors the inventory quantity of each inventory commodity in real time, judges whether the inventory quantity is smaller than a preset quantity lower limit threshold value of each inventory commodity, and marks the inventory commodity name of which the inventory quantity is smaller than the quantity lower limit threshold value as a low inventory commodity name if the inventory quantity is smaller than the quantity lower limit threshold value. The system counts the names of the low-stock commodities to obtain the number of the types of the low-stock commodities. For example, when the number of low-stock items is 5, it is indicated that the stock numbers of 5 items are lower than the respective lower threshold values of the numbers.

S21, determining whether the number of the low inventory item types is greater than a preset low inventory type threshold.

Specifically, the system compares the obtained low inventory commodity type quantity with a preset low inventory type threshold value, and judges whether the low inventory commodity type quantity is greater than the low inventory type threshold value, if so, S23 is executed; otherwise, S22 is executed.

S22, counting is continued.

Specifically, if the number of the low inventory item types is less than or equal to the low inventory type threshold, the system continues to count the low inventory types without triggering other actions.

And S23, generating and displaying the inventory early warning information.

Specifically, the inventory warning information includes all low-inventory commodity names and the inventory quantity corresponding to each low-inventory commodity name, and the system displays the inventory warning information on a screen.

And S24, generating and displaying the commodity purchasing plan.

Specifically, a selection button of "commodity replenishment" may be provided on an interface displaying the inventory warning information, and after the warehouse keeper clicks "commodity replenishment", the system receives a commodity purchasing instruction, which includes all low-inventory commodity names. The system subtracts the inventory quantity of the commodities from the standard quantity corresponding to each low-inventory commodity name to obtain the proposed purchase quantity of each low-inventory commodity name. The standard quantity is preset in the system by the warehouse keeper according to the consumption quantity of each commodity per day. The commodity purchasing plan comprises all low-inventory commodity names and the number to be purchased corresponding to each low-inventory commodity name, and the system displays the commodity purchasing plan on a screen so as to feed back a commodity purchasing instruction input by a warehouse manager. The warehouse manager can recheck the commodity purchasing plan, and after rechecking is correct, the warehouse manager can click to confirm, and the system can automatically send the commodity purchasing plan to the intelligent terminal of the purchasing personnel.

Optionally, the supply chain management method based on the intelligent refrigeration storage further comprises a commodity warehousing process.

As shown in fig. 2, the method comprises the steps of:

and S30, receiving the commodity warehousing information sent by the approval terminal.

Specifically, the system can automatically send the purchase plan to the approval terminal, and after the staff of the approval terminal checks the purchase plan without errors, the system sends the commodity warehousing information, and the commodity warehousing information can also be manually input by the staff of the approval terminal according to the sales list of the supplier. The approval terminal can be intelligent equipment such as a computer. The commodity warehousing information comprises all warehousing commodity names and commodity warehousing quantity corresponding to each warehousing commodity name.

And S31, generating and displaying commodity pre-warehousing information.

Specifically, the system queries a storage scheme corresponding to each warehousing commodity name in a preset storage scheme database according to the warehousing commodity name, wherein the storage scheme comprises storage position information and a listing sequence number. The names of the commodities put in storage in the storage scheme database correspond to the storage schemes one by one and are pre-recorded by the warehouse keeper. The pre-warehousing information is the inquired storage location information, namely the location of the commodity stored in the warehouse. The position of the commodity stored in the warehouse can be the unique terminal identification information of the corresponding storage terminal.

And S32, generating and displaying a listing sequence table.

Specifically, the system sorts all searched shelving sequence numbers in sequence from small to large to obtain a shelving sequence list, wherein the shelving sequence list comprises the names of the warehoused commodities and corresponding shelving sequence numbers. When the commodities are put in storage, the workers sequentially put the commodities in storage according to the listing sequence table and the commodity pre-storage information. The serial number of shelving is preset by a warehouse manager according to the storage condition of each warehousing commodity and the storage position in the warehouse, for example, the commodity shelving serial number which needs to be stored at low temperature and is close to the warehouse door at the storage position is small.

And S33, producing and storing the information of the warehouse commodities.

Specifically, the warehousing commodity information includes warehousing commodity names, identification information and pre-warehousing position information corresponding to each warehousing commodity, and the warehousing commodity information is stored in the warehousing commodity database, so that the warehousing commodity database is updated.

And S34, receiving the identity identification information and the warehoused position information sent by the storage terminal.

Specifically, a plurality of storage terminals for storing different kinds of commodities are provided in the warehouse, and the storage terminals can read out the identification information on the commodities. And the storage terminal sends the read identity identification information of each commodity and the warehousing position information to the system, wherein the warehousing position information is the terminal identification information of the storage terminal.

And S35, judging whether the warehousing position information corresponding to the target warehousing commodity is normal.

Specifically, the system rechecks each received commodity identification information and corresponding warehoused position information, judges whether the warehoused position information corresponding to the received identification information is consistent with the pre-warehousing position information in the pre-warehousing information, if so, indicates that the commodity warehousing is successful, and executes S37; otherwise, S36 is executed.

And S36, generating and displaying abnormal information of the warehousing position.

Specifically, the warehousing position abnormal information comprises the names of the warehoused commodities with the warehoused positions inconsistent with the pre-warehousing positions and corresponding pre-warehousing information, and the warehousing position abnormal information is displayed in a form that the popup window is provided with a red inner sub-body.

And S37, judging whether the identity information sent by the storage terminal is normal.

Specifically, after the warehouse manager inputs a warehousing end instruction on the target storage terminal, the target storage terminal sends the warehousing end instruction to the system. The system judges whether the identity identification information sent by the target storage terminal completely covers all the identity identification information corresponding to the target storage terminal in the pre-warehousing information, if so, the system indicates that the commodities to be warehoused in the target storage terminal are completely warehoused, and S310 is executed; otherwise, if it is determined that the commodity to be warehoused is not warehoused, S39 is executed.

And S39, generating and displaying commodity warehousing exception reminding.

Specifically, the article warehousing exception submission includes warehousing article names and identification information corresponding to articles that should be warehoused but are not warehoused. So as to help the operator to find and find out the missing warehousing goods.

And S310, generating and displaying commodity warehousing completion information.

Specifically, after the system determines that the commodity to be warehoused in the target storage terminal is completely warehoused, commodity warehousing completion information is generated and displayed, and the commodity warehousing completion information may include terminal identification information corresponding to the target storage terminal and a word "corresponding to the commodity warehousing completion".

Based on the method, the embodiment of the application further discloses a supply chain management device based on the intelligent refrigeration house.

As shown in fig. 4, the apparatus includes the following modules:

the information receiving module (401) is used for receiving commodity ex-warehouse information sent by the examination and approval terminal, wherein the commodity ex-warehouse information comprises ex-warehouse commodity names and commodity ex-warehouse quantity corresponding to each ex-warehouse commodity name;

the information query module (402) is used for querying inventory commodity names consistent with the target inventory commodity names in a preset inventory commodity information base, and the inventory commodity information comprises inventory commodity names, identity identification information, effective expiration dates and storage position information corresponding to each inventory commodity;

a commodity selection module (403) for sequentially selecting from the inquired inventory commodities from front to back according to the effective expiration date until the number of the selected inventory commodities is equal to the number of commodity ex-warehouses corresponding to the target ex-warehouse commodity name;

an information generating module (404) configured to generate and display a commodity picking list according to stock commodity information of the selected stock commodity, where the commodity picking list includes a stock commodity name, storage location information, and identification information corresponding to each selected stock commodity;

optionally, the information receiving module (401) is further configured to:

Optionally, as shown in fig. 5, the apparatus further includes:

a quantity judgment module (501) for comparing the inventory quantity of each inventory product in the inventory product information base with a preset quantity lower limit threshold respectively, and judging whether inventory products with the inventory quantity lower than the quantity lower limit threshold exist;

Optionally, the quantity determining module (501) is specifically configured to:

the information receiving module (401) is further configured to: receiving a commodity purchasing instruction, wherein the commodity purchasing instruction comprises the name of the low-inventory commodity;

as shown in fig. 6, the apparatus further includes:

the quantity calculation module (601) is used for subtracting the commodity stock quantity from the commodity standard quantity preset by each low-stock commodity name to obtain the to-be-purchased quantity corresponding to each low-stock commodity name;

a plan generation module (602) for generating and displaying a merchandise procurement plan including all low-inventory merchandise names and respective corresponding pseudo-procurement quantities.

Optionally, the information receiving module (401) is further configured to:

the information query module (402) is further configured to:

Optionally, the information generating module (404) is further configured to:

the information receiving module (401) is further configured to: the method comprises the steps that identity identification information and warehousing position information corresponding to target warehousing commodities sent by a storage terminal are received, and the warehousing position information is terminal identification information corresponding to the storage terminal;

if so, generating and displaying commodity warehousing completion information;

The embodiment of the application also discloses computer equipment.

Specifically, the computer device comprises a memory and a processor, wherein the memory stores a computer program which can be loaded by the processor and executes the supply chain management method based on the intelligent refrigeration house.

The embodiment of the application also discloses a computer readable storage medium.

Specifically, the computer readable storage medium stores a computer program capable of being loaded by a processor and executing the supply chain management method based on the intelligent refrigerator, and the computer readable storage medium includes: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims

1. A supply chain management method based on an intelligent refrigeration house is characterized by comprising the following steps:

2. The method of claim 1, wherein after said generating and displaying a item pick list from inventory item information for said selected inventory items, further comprising:

3. The method of claim 1, further comprising:

4. The method of claim 3, wherein generating and displaying inventory early warning information comprises:

5. The method of claim 1, further comprising:

6. The method of claim 5, wherein the storage scheme further comprises an on-shelf sequence number;

7. The method according to claim 5, further comprising, after receiving the warehousing information of the goods sent by the approval terminal:

generating identity identification information corresponding to each warehousing commodity one by one according to a preset identity identification information generation rule and a preset identity identification information generation rule;

if so, generating and displaying commodity warehousing completion information;

8. A supply chain management device based on intelligent freezer, its characterized in that, the device includes:

the information receiving module 401 is configured to receive commodity ex-warehouse information sent by the approval terminal, where the commodity ex-warehouse information includes ex-warehouse commodity names and commodity ex-warehouse quantity corresponding to each ex-warehouse commodity name;

an information query module 402, configured to query, in a preset inventory commodity information base, an inventory commodity name consistent with a target ex-warehouse commodity name, where the inventory commodity information includes an inventory commodity name, identity information, an effective expiration date, and storage location information corresponding to each inventory commodity;

a commodity selection module 403, configured to select from the queried inventory commodities in sequence from front to back according to the effective expiration date until the number of the selected inventory commodities is equal to the number of commodity ex-warehouses corresponding to the target ex-warehouse commodity name;

an information generating module 404, configured to generate and display a commodity picking list according to the stock commodity information of the selected stock commodity, where the commodity picking list includes a stock commodity name, storage location information, and identity information corresponding to each selected stock commodity.

9. An apparatus comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method of any of claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 7.