CN111861319A - Warehousing system, method and storage medium - Google Patents

Abstract

The application relates to the technical field of warehouse management, in particular to a warehousing method and a warehousing system, which solve the problem of risk that unqualified products flow into the market due to manual missing scanning and other operations. The system comprises a quality control module, a maintenance module and a warehousing module: the quality control module is used for receiving the warehousing codes corresponding to the products to be warehoused, marking the quality states of the warehousing codes and storing the warehousing codes and the quality states corresponding to the warehousing codes into the shared database; the maintenance module is used for marking the quality state of the warehousing code matched with the maintenance information in the shared database so as to update the quality state of the warehousing code, thereby updating the shared database; the quality control module is used for marking the quality state of the warehousing code in the shared database so as to update the shared database again; the warehousing module is used for reading the quality state of the warehousing code of the target product to be warehoused in the shared database, and determining whether to execute warehousing operation on the target product to be warehoused according to the quality state.

Description

Warehousing system, method and storage medium

Technical Field

The present application relates to the field of warehouse management technologies, and in particular, to a warehousing system, a warehousing method, and a storage medium.

Background

With the rapid development of social economy, people have higher and higher demands on living high quality and material high grade, the product quality is related to the life of enterprises, informatization is a great trend of the development of the current times and represents advanced productivity. When the transition to the information era is rapidly completed by various industries, the transition to the information era is leapfrog, physical energy and mechanical energy are not taken as main energy, but intelligence is taken as main energy, a behavior constraint means of prevention and correction is realized, a limit method of generating errors is avoided, and the purpose of zero defect is achieved.

At present, before products are put in storage, unqualified products are subjected to quality inspection code scanning registration, maintenance code scanning registration and quality inspection code scanning registration again. Although code scanning registration of unqualified products can play a role in error prevention, at present, code scanning registration is independent from other code scanning registration, all types of code scanning registration can be effectively used only by the responsibility of staff and supervision of management personnel, and the risk of unqualified products flowing into the market still exists if illegal operations such as missing scanning exist.

Disclosure of Invention

In order to solve the problems, the application provides a warehousing system, a warehousing method and a storage medium, and solves the problem of risk that unqualified products flow into the market due to manual missing scanning and other operations.

In a first aspect, the present application provides a warehousing system, the system includes a quality control module, a maintenance module and a warehousing module:

the quality control module is used for receiving the warehousing codes corresponding to the products to be warehoused, marking the quality states of the warehousing codes when the products to be warehoused are unqualified products, and storing the warehousing codes and the quality states corresponding to the warehousing codes into a shared database;

the maintenance module is used for marking the quality state of the warehousing code matched with the maintenance information in the shared database according to the maintenance information when the maintenance information is received so as to update the quality state of the warehousing code, thereby updating the shared database;

the quality control module is used for receiving the warehousing codes again, and marking the quality state of the warehousing codes in the shared database when the products to be warehoused are qualified products, so that the shared database is updated again;

the warehousing module is used for acquiring a warehousing code corresponding to a target product to be warehoused when the target product to be warehoused is conveyed to a preset position, reading a quality state corresponding to the warehousing code in the updated shared database, and determining whether to execute warehousing operation on the target product to be warehoused according to the quality state.

According to an embodiment of the application, optionally, in the warehousing system, the quality control module includes a tag adding submodule, the tag adding submodule is configured to receive a warehousing code corresponding to a product to be warehoused, and add a first tag to the warehousing code when the product to be warehoused is an unqualified product, where a quality state corresponding to the warehousing code carrying the first tag is an unqualified state.

According to an embodiment of the present application, optionally, in the warehousing system, the maintenance module includes a first tag updating sub-module, and the first tag updating sub-module is configured to update, when receiving maintenance information, a first tag of a warehousing code matched with the maintenance information in the shared data to a second tag according to the maintenance information, so as to update a quality state corresponding to the warehousing code, where the quality state corresponding to the warehousing code carrying the second tag is a maintenance state.

According to an embodiment of the application, optionally, in the warehousing system, the quality control module includes a second tag updating sub-module, and the second tag updating sub-module is configured to receive the warehousing code again, and update the second tag of the warehousing code in the shared data to a third tag when the product to be warehoused is a qualified product, so as to update the quality state corresponding to the warehousing code, where the quality state corresponding to the warehousing code carrying the third tag is a qualified state.

According to an embodiment of the application, optionally, in the warehousing system, the warehousing module includes a first warehousing submodule, the first warehousing submodule is configured to acquire a warehousing code corresponding to a target product to be warehoused when the target product to be warehoused is transported to a preset position, and perform warehousing operation on the target product to be warehoused when the read quality state corresponding to the warehousing code is a qualified state.

According to an embodiment of the application, optionally, in the warehousing system, the warehousing module further includes a first notification sub-module, configured to send a control signal to the alarm module when the read quality state corresponding to the warehousing code corresponding to the target product to be warehoused is an unqualified state, so that the alarm module executes an alarm function when receiving the control signal.

According to an embodiment of the application, optionally, in the warehousing system, the warehousing module further includes a second notification sub-module, configured to send the warehousing code to the target terminal when the read quality state corresponding to the warehousing code corresponding to the target product to be warehoused is a non-qualified state.

According to an embodiment of the application, optionally, in the warehousing system, the system further includes a deletion module, where the deletion module is configured to delete, after a warehousing operation is performed on a target product to be warehoused, a warehousing code corresponding to the target product to be warehoused and a quality state corresponding to the warehousing code from the shared database.

In a second aspect, the present application provides a warehousing method, including:

receiving a warehousing code corresponding to a product to be warehoused, marking the quality state of the warehousing code when the product to be warehoused is an unqualified product, and storing the warehousing code and the quality state corresponding to the warehousing code into a shared database;

receiving maintenance information, marking the quality state of the warehousing code matched with the maintenance information in the shared database according to the maintenance information, and updating the quality state of the warehousing code so as to update the shared database;

when the warehousing code is received again and the product to be warehoused corresponding to the warehousing code is a qualified product, marking the quality state of the warehousing code in the shared database, and updating the shared database again;

when a target product to be warehoused is conveyed to a preset position, a warehousing code corresponding to the target product to be warehoused is obtained, the quality state corresponding to the warehousing code in the updated shared database is read, and whether warehousing operation is executed on the target product to be warehoused is determined according to the quality state.

Compared with the prior art, one or more embodiments in the above scheme can have the following advantages or beneficial effects:

The application provides a warehousing method and a warehousing system, wherein the warehousing system comprises a quality control module, a maintenance module and a warehousing module: the quality control module is used for receiving the warehousing codes corresponding to the products to be warehoused, marking the quality states of the warehousing codes when the products to be warehoused are unqualified products, and storing the warehousing codes and the quality states corresponding to the warehousing codes into a shared database; the maintenance module is used for marking the quality state of the warehousing code matched with the maintenance information in the shared database according to the maintenance information when the maintenance information is received so as to update the quality state of the warehousing code, thereby updating the shared database; the quality control module is used for receiving the warehousing codes again, and marking the quality state of the warehousing codes in the shared database when the products to be warehoused are qualified products so as to update the shared database again; the warehousing module is used for acquiring a warehousing code corresponding to a target product to be warehoused when the target product to be warehoused is conveyed to a preset position, reading a quality state corresponding to the warehousing code in the updated shared database, and determining whether to execute warehousing operation on the target product to be warehoused according to the quality state. The quality control module, the maintenance module and the warehousing module are associated to realize data sharing, and the risk that unqualified products flow into the market due to manual missing scanning and other operations is solved.

Drawings

The present application will be described in more detail below on the basis of embodiments and with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of a warehousing system provided in the second embodiment of the present application.

Fig. 2 is a schematic flow chart of a warehousing method according to an embodiment of the present application.

Detailed Description

The following detailed description will be provided with reference to the accompanying drawings and embodiments, so that how to apply the technical means to solve the technical problems and achieve the corresponding technical effects can be fully understood and implemented. The embodiments and various features in the embodiments of the present application can be combined with each other without conflict, and the formed technical solutions are all within the scope of protection of the present application.

Example one

Referring to fig. 1, the present application provides a warehousing system, which includes a quality control module, a maintenance module, and a warehousing module.

In this embodiment, the quality control module is configured to receive a warehousing code corresponding to a product to be warehoused, mark a quality state of the warehousing code when the product to be warehoused is an unqualified product, and store the warehousing code and the quality state corresponding to the warehousing code in a shared database.

And the maintenance module is used for marking the quality state of the warehousing code matched with the maintenance information in the shared database according to the maintenance information when the maintenance information is received so as to update the quality state of the warehousing code, thereby updating the shared database.

And the quality control module is used for receiving the warehousing codes again, and marking the quality state of the warehousing codes in the shared database when the products to be warehoused are qualified products so as to update the shared database again.

The warehousing module is used for acquiring a warehousing code corresponding to a target product to be warehoused when the target product to be warehoused is conveyed to a preset position, reading a quality state corresponding to the warehousing code in the updated shared database, and determining whether to execute warehousing operation on the target product to be warehoused according to the quality state.

In this embodiment, the quality control module, the maintenance module and the warehousing module are associated to realize data sharing, and the problem of risk that unqualified products flow into the market due to manual operation such as missing scanning is solved, wherein when any flow (for example, the maintenance module) is not operated, the quality state is not updated, and the warehousing code corresponding to the main board (i.e., the product to be warehoused) cannot be warehoused when reaching the code scanning warehousing position, so that the purpose of preventing unqualified products from flowing out is achieved.

In this embodiment, the warehousing code may be a one-dimensional code or a two-dimensional code, which is not limited in this embodiment.

In this embodiment, the quality state is used to represent a state of a product to be warehoused corresponding to the warehousing code, and the quality state is one of a qualified state, an unqualified state, and a maintenance state.

It can be understood that the quality state of the warehousing code marked by the quality control module when the product to be warehoused is an unqualified product correspondingly represents that the product to be warehoused is an unqualified product. Specifically, the quality control module comprises a label adding submodule for scanning and inputting the warehousing code, the label adding submodule receives the warehousing code corresponding to the product to be warehoused, and adds a first label to the warehousing code when the product to be warehoused is an unqualified product, wherein the quality state corresponding to the warehousing code carrying the first label is an unqualified state. When the products to be warehoused are unqualified products, the label adder is used for adding labels to the warehousing codes of the products to be warehoused so as to achieve the purpose of marking the quality states of the warehousing codes.

And after the quality control module adds a first label to the warehousing code when the product to be warehoused is an unqualified product, scanning and inputting maintenance information after the product to be warehoused is determined to be maintained, and correspondingly representing that the product to be warehoused is an unqualified product according to the quality state of the warehousing code matched with the maintenance information in the shared database marked by the maintenance module according to the maintenance information. Generally, the maintenance information includes warehousing code information, which is used for matching warehousing codes in a shared database; the maintenance information also comprises maintenance state information, and the maintenance state information represents that the product to be warehoused is maintained. Specifically, the maintenance module includes a first tag updating sub-module, and the first tag updating sub-module is configured to update, when maintenance information is received, a first tag of a warehousing code matched with the maintenance information in the shared data to a second tag according to the maintenance information, so as to update a quality state corresponding to the warehousing code, so as to achieve a purpose of re-marking a quality state of a product to be warehoused, and further achieve a purpose of updating the shared database. And the quality state corresponding to the warehousing code carrying the second label is a maintenance state.

And the quality control module is used for receiving the warehousing code again and indicating that the product to be warehoused is a qualified product. The quality control module is required to update the quality state of the quality control module so as to update the quality state of the quality control module to be a qualified state. Specifically, the quality control module includes a second tag updating sub-module, and the second tag updating sub-module is configured to receive the warehousing code again, and update the second tag of the warehousing code in the shared data to a third tag when the product to be warehoused is a qualified product, so as to achieve the purpose of re-marking the quality state of the product to be warehoused, and further achieve the purpose of updating the shared database. And the quality state corresponding to the warehousing code carrying the third label is a qualified state.

On the warehousing production line, a warehousing module collects warehousing codes corresponding to target products to be warehoused which are conveyed to a preset position, reads quality states corresponding to the warehousing codes in a shared database, and determines whether warehousing operation is performed on the target warehoused products according to the quality states. Specifically, the method comprises the following steps:

the warehousing module comprises a first warehousing submodule, wherein the first warehousing submodule is used for acquiring a warehousing code corresponding to a target product to be warehoused when the target product to be warehoused is conveyed to a preset position, and performing warehousing operation on the target product to be warehoused when the read quality state corresponding to the warehousing code is a qualified state.

It can be understood that, when the quality state corresponding to the warehousing code of the target product to be warehoused is an unqualified state, the staff is reminded so that the staff can process the target product to be warehoused in the unqualified state in time. The warehousing module further comprises a first notification submodule for sending a control signal to the alarm module when the quality state corresponding to the read warehousing code corresponding to the target product to be warehoused is in an unqualified state, so that the alarm module executes an alarm function when receiving the control signal.

The warehousing module further comprises a second notification submodule for sending the warehousing code to the target terminal when the quality state corresponding to the read warehousing code corresponding to the target product to be warehoused is in a non-qualified state.

In some embodiments, the collection action of the warehousing module may be triggered by a photoelectric sensor. Specifically, when a product is conveyed to a preset position, the photoelectric sensor acts and sends a trigger signal to the warehousing module, the warehousing module starts the acquisition action to acquire a warehousing code corresponding to the product, and the product is a target product to be warehoused.

Illustratively, when the products 1 to be warehoused and the products 2 to be warehoused are unqualified, the quality control module marks the warehousing codes of the products 1 to be warehoused and the quality states of the warehousing codes of the products 2 to be warehoused respectively, the maintenance module receives the maintenance information of the products 2 to be warehoused, marks the quality states of the warehousing codes matched with the maintenance information in the shared database according to the maintenance information, receives the warehousing codes of the products 2 to be warehoused again, marks the warehousing codes again, and obtains the updated shared database. In the shared database, the quality state of the warehousing code of the product 1 to be warehoused is unqualified, and the quality state of the warehousing code of the product 2 to be warehoused is qualified. The warehousing module acquires that the target product to be warehoused is the product 1 to be warehoused, and when the quality state of the warehousing code of the product 1 to be warehoused in the shared database is read, the warehousing module cannot execute warehousing operation on the product because the quality state is an unqualified state.

In the process, the code scanning and inputting are required to be carried out continuously so as to achieve the purpose of updating the quality state of the warehousing codes of the products to be warehoused, and further represent whether the products to be warehoused are qualified or not. When any flow (for example, a maintenance module) is not operated, the quality state is not updated to be in a qualified state, and the warehousing code corresponding to the product to be warehoused cannot be warehoused (namely, the warehousing module cannot successfully perform warehousing operation on the product to be warehoused) at the code scanning warehousing position, so that the purpose of preventing unqualified products from flowing out is achieved.

Example two

Referring to fig. 2, the present application provides a warehousing method, which can be applied to a terminal such as a computer, and the terminal executes steps S110 to S140 when executing the warehousing method.

Step S110: receiving a warehousing code corresponding to a product to be warehoused, marking the quality state of the warehousing code when the product to be warehoused is an unqualified product, and storing the warehousing code and the quality state corresponding to the warehousing code in a shared database.

Step S120: and receiving maintenance information, marking the quality state of the warehousing code matched with the maintenance information in the shared database according to the maintenance information, and updating the quality state of the warehousing code so as to update the shared database.

Step S130: and when the warehousing code is received again and the product to be warehoused corresponding to the warehousing code is a qualified product, marking the quality state of the warehousing code in the shared database, and updating the shared database again.

Step S140: when a target product to be warehoused is conveyed to a preset position, a warehousing code corresponding to the target product to be warehoused is obtained, the quality state corresponding to the warehousing code in the updated shared database is read, and whether warehousing operation is executed on the target product to be warehoused is determined according to the quality state.

In the process, the code scanning and inputting are required to be carried out continuously so as to achieve the purpose of updating the quality state of the warehousing codes of the products to be warehoused, and further represent whether the products to be warehoused are qualified or not. When any flow (for example, a maintenance module) is not operated, the quality state is not updated to be in a qualified state, and the warehousing code corresponding to the product to be warehoused cannot be warehoused (namely, the warehousing module cannot successfully perform warehousing operation on the product to be warehoused) at the code scanning warehousing position, so that the purpose of preventing unqualified products from flowing out is achieved.

EXAMPLE III

The present application further provides a storage medium, which includes a memory and a processor, where the memory stores a computer program, and when the computer program is executed by the processor, the method for entering a library in embodiment two is implemented, and when the method for entering a library is executed, an implementation process of the method for entering a library is similar to that of the method for entering a library in embodiment two, and details of the implementation process are not repeated in this embodiment.

In summary, the present application provides a warehousing method and system, where the system includes a quality control module, a maintenance module, and a warehousing module; the quality control module is used for receiving the warehousing codes corresponding to the products to be warehoused, marking the quality states of the warehousing codes when the products to be warehoused are unqualified products, and storing the warehousing codes and the quality states corresponding to the warehousing codes into a shared database; the maintenance module is used for marking the quality state of the warehousing code matched with the maintenance information in the shared database according to the maintenance information when the maintenance information is received so as to update the quality state of the warehousing code, thereby updating the shared database; the quality control module is used for receiving the warehousing codes again, and marking the quality state of the warehousing codes in the shared database when the products to be warehoused are qualified products so as to update the shared database again; the warehousing module is used for acquiring a warehousing code corresponding to a target product to be warehoused when the target product to be warehoused is conveyed to a preset position, reading a quality state corresponding to the warehousing code in the updated shared database, and determining whether to execute warehousing operation on the target product to be warehoused according to the quality state. The quality control module, the maintenance module and the warehousing module are associated to realize data sharing, and the problem of risk that unqualified products flow into the market due to manual missing scanning and other operations is solved.

In the several embodiments provided in the embodiments of the present application, it should be understood that the disclosed system and method may be implemented in other ways. The system and method embodiments described above are merely illustrative.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although the embodiments disclosed in the present application are described above, the descriptions are only for the convenience of understanding the present application, and are not intended to limit the present application. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims.

Claims (10)

1. The warehousing system is characterized by comprising a quality control module, a maintenance module and a warehousing module:

the quality control module is used for receiving the warehousing codes corresponding to the products to be warehoused, marking the quality states of the warehousing codes when the products to be warehoused are unqualified products, and storing the warehousing codes and the quality states corresponding to the warehousing codes into a shared database;

the maintenance module is used for marking the quality state of the warehousing code matched with the maintenance information in the shared database according to the maintenance information when the maintenance information is received so as to update the quality state of the warehousing code, thereby updating the shared database;

the quality control module is used for receiving the warehousing codes again, and marking the quality state of the warehousing codes in the shared database when the products to be warehoused are qualified products, so that the shared database is updated again;

the warehousing module is used for acquiring a warehousing code corresponding to a target product to be warehoused when the target product to be warehoused is conveyed to a preset position, reading a quality state corresponding to the warehousing code in the updated shared database, and determining whether to execute warehousing operation on the target product to be warehoused according to the quality state.

2. The system of claim 1, wherein the quality control module comprises a label adding submodule, and the label adding submodule is configured to receive a warehousing code corresponding to a product to be warehoused, and add a first label to the warehousing code when the product to be warehoused is an unqualified product, where a quality state corresponding to the warehousing code carrying the first label is an unqualified state.

3. The system of claim 2, wherein the maintenance module includes a first tag updating sub-module, and the first tag updating sub-module is configured to update, when maintenance information is received, a first tag of a warehousing code matching the maintenance information in the shared data to a second tag according to the maintenance information, so as to update a quality state corresponding to the warehousing code, where the quality state corresponding to the warehousing code carrying the second tag is a maintenance state.

4. The system of claim 3, wherein the quality control module comprises a second tag updating sub-module, and the second tag updating sub-module is configured to receive the warehousing code again, and update the second tag of the warehousing code in the shared data to a third tag when the product to be warehoused is a qualified product, so as to update the quality state corresponding to the warehousing code, where the quality state corresponding to the warehousing code carrying the third tag is a qualified state.

5. The system according to claim 1, wherein the warehousing module comprises a first warehousing submodule, and the first warehousing submodule is configured to acquire a warehousing code corresponding to a target product to be warehoused when the target product to be warehoused is transported to a preset position, and perform warehousing operation on the target product to be warehoused when the read quality state corresponding to the warehousing code is a qualified state.

6. The system of claim 1, wherein the warehousing module further comprises a first notification sub-module, configured to send a control signal to an alarm module when the read quality state corresponding to the warehousing code corresponding to the target product to be warehoused is an unqualified state, so that the alarm module executes an alarm function when receiving the control signal.

7. The system of claim 1, wherein the warehousing module further comprises a second notification sub-module, which is configured to send the warehousing code to a target terminal when the quality state corresponding to the warehousing code read corresponding to the target product to be warehoused is a non-conforming state.

8. The system according to claim 1, further comprising a deleting module, wherein the deleting module is configured to delete the warehousing code corresponding to the target product to be warehoused and the quality status corresponding to the warehousing code from the shared database after the warehousing operation is performed on the target product to be warehoused.

9. A method for warehousing, the method comprising:

receiving a warehousing code corresponding to a product to be warehoused, marking the quality state of the warehousing code when the product to be warehoused is an unqualified product, and storing the warehousing code and the quality state corresponding to the warehousing code into a shared database;

receiving maintenance information, marking the quality state of the warehousing code matched with the maintenance information in the shared database according to the maintenance information, and updating the quality state of the warehousing code so as to update the shared database;

when the warehousing code is received again and the product to be warehoused corresponding to the warehousing code is a qualified product, marking the quality state of the warehousing code in the shared database, and updating the shared database again;

when a target product to be warehoused is conveyed to a preset position, a warehousing code corresponding to the target product to be warehoused is obtained, the quality state corresponding to the warehousing code in the updated shared database is read, and whether warehousing operation is executed on the target product to be warehoused is determined according to the quality state.

10. A storage medium storing a computer program which, when executed by one or more processors, implements the binning method of claim 9.

Images