CN114254974A - Inventory management method and system based on automatic container machine - Google Patents

Abstract

The scheme provides an inventory management method based on an automatic container loader, which comprises the following steps: s1, analyzing the selling frequency and the selling rate of the commodities according to the goods discharging condition and the order condition in the system transmitted back by a sensor in the automatic container crane, and generating goods replenishment application information when the quantity of the remaining commodities in the automatic container crane is lower than an early warning value; s2, comparing the replenishment application information with total stock information, detecting whether the replenishment application is supported by the existing total stock, if so, generating a distribution list, issuing the distribution list to a sorting robot, and packing and delivering the distributed goods to a transportation robot by the sorting robot; and S3, the transport robot transports the packaged goods to an automatic goods cabinet machine, the goods are placed into the automatic goods cabinet machine after being scanned by the mobile terminal, and the mobile terminal scans the goods supplement and uploads the goods supplement record to the cloud server. The method can manage the automatic counter in real time, improves the accuracy of inventory management, can replace manpower in the main process, and saves the labor cost.

Description

Inventory management method and system based on automatic container machine

Technical Field

The invention relates to the technical field of inventory management, in particular to an inventory management method and an inventory management system based on an automatic counter machine.

Background

The inventory management system is indispensable for warehouse management, and both the physical warehouse and the automatic counter need a special inventory management system to manage the inventory management system, for example, replenishment is performed when replenishment is required, cleaning is performed when the warehouse needs cleaning, and if the commodity in the warehouse is damaged, the damaged commodity is taken out and then processed, and the like.

In the prior art, the inventory management system applied to the automatic counter machine is generally referenced from the inventory management system of the physical warehouse, the functional characteristics of the inventory management system applied to the automatic counter machine and the inventory management system applied to the physical warehouse are basically consistent, and the functions of the inventory management system are determined according to the characteristics and the requirements of the physical warehouse.

However, the inventory management system applied to the physical warehouse is not suitable for the automatic container machine, that is, the automatic container machine is not suitable for the existing inventory management method. The inventory management system of the physical warehouse generally performs operations such as warehousing intervention, ex-warehouse intervention, regular inventory checking and the like on the warehouse by warehouse management personnel. And because the mobility and the mobility of the solid storehouse are not large, the operation of warehouse entry intervention, warehouse exit intervention, regular warehouse inventory and the like is only needed to be performed on the storeroom at regular time, and the storeroom in the solid storehouse does not need to be managed in real time. The automatic container machine has high mobility and frequent orders, so the operations of warehousing intervention, ex-warehouse intervention, regular inventory making and the like need to be frequently performed on the automatic container machine.

Therefore, in view of the current situation, there is an urgent need to design and produce an inventory management method based on an automatic container machine, so as to solve the problem that the automatic container machine in the prior art is not suitable for the existing inventory management mode.

Disclosure of Invention

One of the objectives of the present invention is to provide an inventory management method based on an automatic container loader, which is designed for the inventory management characteristics of the automatic container loader, and can manage the automatic container loader in real time, thereby improving the accuracy of inventory management, and the main process can replace manpower to manage, thereby saving the labor cost.

The second objective of the present invention is to provide an inventory management system based on automatic counter, to which the above inventory management method based on automatic counter is applied, and which provides hardware support for the above management method.

The purpose of the invention is realized by the following technical scheme.

An inventory management method based on an automatic container machine comprises the following steps:

s1, a cloud server analyzes the selling frequency and the selling rate of commodities according to the goods unloading condition and the order condition in the system sent back by a sensor in an automatic container machine, and generates goods replenishment application information when the quantity of the remaining commodities in the automatic container machine is lower than an early warning value;

s2, the cloud server compares the replenishment application information with the total stock information, detects whether the existing total stock supports the replenishment application, generates a distribution list if the replenishment application is supported, issues the distribution list to the sorting robot, and packs and delivers the distributed goods to the transportation robot by the sorting robot;

and S3, the transport robot transports the packaged goods to an automatic goods cabinet machine, the goods are placed into the automatic goods cabinet machine after being scanned by the mobile terminal, and the mobile terminal scans the goods supplement and uploads the goods supplement record to the cloud server.

Preferably, after step S3, the method further includes the steps of:

and S4, the cloud server acquires the quality guarantee period of the replenishment trademark according to the replenishment code scanning record, searches and inquires the quality guarantee periods of other commodities in the automatic container machine, sends a reminding and commodity fetching instruction to the mobile terminal if the commodities enter the quality guarantee period dangerous period, and transports the commodities which enter the quality guarantee period dangerous period by the transport robot after the commodities are taken out.

Preferably, after step S4, the method further includes the steps of:

s5, the cloud server compares the goods distribution list with the goods supplementing condition sent back by the sensor in the automatic container machine, and if the commodity information on the goods distribution list is consistent with the goods supplementing information sent back by the sensor in the automatic container machine, the step S6 is executed; if the commodity information on the goods distribution list is inconsistent with the replenishment information returned by the sensor in the automatic container machine, executing the step S7;

s6, adding the commodity information on the goods distribution list into the existing inventory information, and inputting the result into an inventory database;

and S7, adding the replenishment information returned by the sensor in the automatic container loader into the existing inventory information, and inputting the result into an inventory database.

Preferably, after step S7, the method further includes the steps of:

and S8, judging whether the quality of the commodity is lost or not by the loss reporting module according to the commodity information transmitted back by the sensor in the automatic container loader, if so, transmitting the damage information to the cloud server for storage, and generating a loss reporting list at intervals of preset time T.

Preferably, the replenishment application information includes: replenishment name, replenishment quantity and cut-off time.

Preferably, the shelf life risk is calculated from a combination of the sales rate and the storage rate.

An automated container machine based inventory management system comprising:

the application supplement module is used for analyzing the selling frequency and the selling rate of the commodities according to the goods placing condition and the order condition in the system which are transmitted back by the sensor in the automatic container machine, generating supplement application information when the quantity of the remaining commodities in the automatic container machine is lower than an early warning value, and submitting the supplement application information to the goods distribution module;

the goods distribution module is used for comparing the goods replenishment application information with the total stock information, detecting whether the current total stock supports the goods replenishment application, if so, generating a goods distribution list, issuing the goods distribution list to the sorting robot, packing and delivering the distributed goods to the transportation robot by the sorting robot, and transporting the packed goods to the automatic goods cabinet machine by the transportation robot;

and the replenishment module is used for sweeping goods into the automatic container loader through the mobile terminal, and the mobile terminal sweeps the replenishment into a record and uploads the record to the cloud server.

Preferably, the automatic counter-based inventory management system further includes:

and the quality guarantee period management module is used for acquiring the quality guarantee period of the replenishment trademark according to the replenishment code scanning record, searching and inquiring the quality guarantee periods of other commodities in the automatic container crane, sending a reminding and commodity fetching instruction to the mobile terminal if the commodities enter the quality guarantee period dangerous period, and taking out the commodities which enter the quality guarantee period dangerous period and then transporting the commodities by the transportation robot.

Preferably, the automatic counter-based inventory management system further includes:

the inventory checking module is used for comparing the goods distribution list with the goods supplementing condition transmitted back by the sensor in the automatic container, adding the goods information on the goods distribution list into the existing inventory information if the goods information on the goods distribution list is consistent with the goods supplementing information transmitted back by the sensor in the automatic container, and inputting the result into the inventory database; if the commodity information on the goods allocation list is inconsistent with the goods supplementing information returned by the sensor in the automatic container machine, adding the goods supplementing information returned by the sensor in the automatic container machine into the existing inventory information, and inputting the result into the inventory database.

Preferably, the automatic counter-based inventory management system further includes:

and the damage reporting module is used for judging whether the quality of the commodity is lost or not according to the commodity information transmitted back by the sensor in the automatic container crane, transmitting the damage information to the cloud server for storage if the quality of the commodity is lost, and generating a damage reporting list at intervals of preset time T.

The invention has the beneficial effects that:

the scheme provides an inventory management method based on an automatic container loader, which comprises the following steps: s1, a cloud server analyzes the selling frequency and the selling rate of commodities according to the goods unloading condition and the order condition in the system sent back by a sensor in an automatic container machine, and generates goods replenishment application information when the quantity of the remaining commodities in the automatic container machine is lower than an early warning value; s2, the cloud server compares the replenishment application information with the total stock information, detects whether the existing total stock supports the replenishment application, generates a distribution list if the replenishment application is supported, issues the distribution list to the sorting robot, and packs and delivers the distributed goods to the transportation robot by the sorting robot; and S3, the transport robot transports the packaged goods to an automatic goods cabinet machine, the goods are placed into the automatic goods cabinet machine after being scanned by the mobile terminal, and the mobile terminal scans the goods supplement and uploads the goods supplement record to the cloud server. The method is designed aiming at the inventory management characteristics of the automatic counter machine, the automatic counter machine can be managed in real time, the accuracy of inventory management is improved, the management can be carried out by replacing manpower in the main process, and the labor cost is saved.

Drawings

Fig. 1 is a flowchart of an automatic container-machine-based inventory management method provided in the present embodiment;

fig. 2 is a flowchart of a preferred method for managing inventory based on an automatic container machine according to the embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Method embodiment

As shown in fig. 1 to fig. 2, the present solution provides an inventory management method based on an automatic container loader, including the steps of:

s1, the cloud server analyzes the selling frequency and the selling rate of the commodities according to the goods discharging condition transmitted back by the sensor in the automatic container crane and the order condition in the system, and generates goods replenishment application information when the quantity of the remaining commodities in the automatic container crane is lower than an early warning value.

Specifically, the stock quantity can be calculated according to the selling rate, the time required by the sold-out stock quantity can be roughly calculated according to the selling frequency and the stock quantity of the commodities, and when the time required by replenishment is equal to the time required by the sold-out stock quantity, namely the quantity of the commodities left in the automatic container is lower than the early warning value, replenishment application information is generated at the moment.

S2, the cloud server compares the replenishment application information with the total stock information, detects whether the current total stock supports the replenishment application, generates a distribution list if the replenishment application is supported, issues the distribution list to the sorting robot, and packs and delivers the distributed goods to the transportation robot by the sorting robot.

And if the existing total inventory amount can complete the required replenishment amount in the replenishment application information, the total inventory is proved to support the replenishment application, and a distribution list is generated. If the existing total inventory amount can not complete the replenishment amount required in the replenishment application information, the total inventory is proved not to support the replenishment application, the distribution bill is not generated any more, the total inventory is informed to replenish the replenishment, and the step is returned to be executed after the replenishment is completed.

And S3, the transport robot transports the packaged goods to an automatic goods cabinet machine, the goods are placed into the automatic goods cabinet machine after being scanned by the mobile terminal, and the mobile terminal scans the goods supplement and uploads the goods supplement record to the cloud server.

In this embodiment, as a preferable scheme, after the step S3, the method further includes the steps of:

and S4, the cloud server acquires the quality guarantee period of the replenishment trademark according to the information carried by the replenishment code scanning record, searches and inquires the quality guarantee periods of other commodities in the automatic container crane, sends a reminding and commodity fetching instruction to the mobile terminal if the commodities enter the quality guarantee period dangerous period, and transports the commodities entering the quality guarantee period dangerous period away by the transport robot for post-processing.

Wherein, the shelf life dangerous period is comprehensively calculated by the selling rate and the storage rate. Specifically, the total quantity of the commodities from the current shelf life to the future date is calculated according to the storage rate, the quantity of the commodities which can be sold before the shelf life to the future date is calculated according to the selling rate, and if the quantity of the commodities is larger than the quantity of the commodities which can be sold, the time from the current shelf life to the future date is the shelf life dangerous period. The excessive commodities are taken out and then are carried away by the transport robot.

In this embodiment, as a preferable scheme, after the step S4, the method further includes the steps of:

s5, the cloud server compares the goods allocation form with the goods supplementing condition transmitted back by the sensor in the automatic container machine, if the commodity information on the goods allocation form is consistent with the goods supplementing information transmitted back by the sensor in the automatic container machine, the goods is supplemented according to the commodity information on the goods allocation form, and the step S6 is executed; if the goods information on the distribution list is inconsistent with the replenishment information returned by the sensor in the automatic container loader, it is proved that the replenishment is not performed according to the goods information on the distribution list but is performed according to the replenishment information returned by the sensor in the automatic container loader, step S7 is performed.

And S6, adding the commodity information on the goods distribution list into the existing inventory information, and inputting the result into an inventory database.

And S7, adding the replenishment information returned by the sensor in the automatic container loader into the existing inventory information, and inputting the result into an inventory database.

In this embodiment, as a preferable scheme, after the step S7, the method further includes the steps of:

s8, the damage reporting module judges whether the quality of the goods is lost or not according to the goods information transmitted back by the sensor in the automatic container loader, if the quality is lost, such as damage, loss, leakage and the like, the damage information is transmitted to the cloud server to be stored, damage reporting lists are generated at preset time intervals, and corresponding basis is provided for the goods selection and inventory management system.

Device embodiment

This scheme still provides an inventory management system based on automatic container loader, and this system includes: the system comprises an application replenishment module, a distribution module, a replenishment module, a quality guarantee period inspection module, a stock checking module and a damage reporting module.

The application supplement module is used for analyzing the selling frequency and the selling rate of the commodities according to the goods placing condition transmitted back by the sensor in the automatic container machine and the order condition in the system, generating the supplement application information when the quantity of the remaining commodities in the automatic container machine is lower than the early warning value, and submitting the supplement application information to the goods distribution module.

The goods allocation module is used for comparing the goods replenishment application information with the total stock information, detecting whether the current total stock supports the goods replenishment application, if supporting, generating a goods allocation list, issuing the goods allocation list to the sorting robot, packing and delivering the goods allocated by the sorting robot to the transportation robot, and transporting the packed goods to the automatic goods cabinet machine by the transportation robot.

The replenishment module is used for sweeping goods into the automatic goods cabinet machine through the mobile terminal, and the mobile terminal sweeps the replenishment into the code recording and uploads the replenishment to the cloud server.

In this embodiment, as a preferable scheme, the inventory management system based on the automatic container loader further includes:

and the quality guarantee period management module is used for acquiring the quality guarantee period of the replenishment trademark according to the replenishment code scanning record, searching and inquiring the quality guarantee periods of other commodities in the automatic container machine, sending a reminding and commodity fetching instruction to the mobile terminal if the commodities enter the quality guarantee period dangerous period, taking out the commodities which enter the quality guarantee period dangerous period, and then carrying out post-processing by the transportation robot.

In this embodiment, as a preferable scheme, the inventory management system based on the automatic container loader further includes:

the inventory checking module is used for comparing the goods distribution list with the goods supplementing condition transmitted back by the sensor in the automatic container, adding the goods information on the goods distribution list into the existing inventory information if the goods information on the goods distribution list is consistent with the goods supplementing information transmitted back by the sensor in the automatic container, and inputting the result into the inventory database; if the commodity information on the goods allocation list is inconsistent with the goods supplementing information returned by the sensor in the automatic container machine, adding the goods supplementing information returned by the sensor in the automatic container machine into the existing inventory information, and inputting the result into the inventory database.

In this embodiment, as a preferable scheme, the inventory management system based on the automatic container loader further includes:

and the damage reporting module is used for judging whether the quality of the commodity is lost or not according to the commodity information transmitted back by the sensor in the automatic container loader, if the quality is lost, such as the quality loss of damage, loss, leakage and the like, transmitting the damaged information to the cloud server for storage, and generating a damage reporting list at intervals of preset time T.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims (10)

1. An inventory management method based on an automatic container machine is characterized by comprising the following steps:

s1, a cloud server analyzes the selling frequency and the selling rate of commodities according to the goods unloading condition and the order condition in the system sent back by a sensor in an automatic container machine, and generates goods replenishment application information when the quantity of the remaining commodities in the automatic container machine is lower than an early warning value;

s2, the cloud server compares the replenishment application information with the total stock information, detects whether the existing total stock supports the replenishment application, generates a distribution list if the replenishment application is supported, issues the distribution list to the sorting robot, and packs and delivers the distributed goods to the transportation robot by the sorting robot;

and S3, the transport robot transports the packaged goods to an automatic goods cabinet machine, the goods are placed into the automatic goods cabinet machine after being scanned by the mobile terminal, and the mobile terminal scans the goods supplement and uploads the goods supplement record to the cloud server.

2. The automated cabinet-based inventory management method as claimed in claim 1, further comprising, after the step S3, the steps of:

and S4, the cloud server acquires the quality guarantee period of the replenishment trademark according to the replenishment code scanning record, searches and inquires the quality guarantee periods of other commodities in the automatic container machine, sends a reminding and commodity fetching instruction to the mobile terminal if the commodities enter the quality guarantee period dangerous period, and transports the commodities which enter the quality guarantee period dangerous period by the transport robot after the commodities are taken out.

3. The automated container machine-based inventory management method according to claim 2, further comprising, after the step S4, the steps of:

s5, the cloud server compares the goods distribution list with the goods supplementing condition sent back by the sensor in the automatic container machine, and if the commodity information on the goods distribution list is consistent with the goods supplementing information sent back by the sensor in the automatic container machine, the step S6 is executed; if the commodity information on the goods distribution list is inconsistent with the replenishment information returned by the sensor in the automatic container machine, executing the step S7;

s6, adding the commodity information on the goods distribution list into the existing inventory information, and inputting the result into an inventory database;

and S7, adding the replenishment information returned by the sensor in the automatic container loader into the existing inventory information, and inputting the result into an inventory database.

4. The automated container machine-based inventory management method according to claim 3, further comprising, after the step S7, the steps of:

and S8, judging whether the quality of the commodity is lost or not by the loss reporting module according to the commodity information transmitted back by the sensor in the automatic container loader, if so, transmitting the damage information to the cloud server for storage, and generating a loss reporting list at intervals of preset time T.

5. The automated container machine-based inventory management method of claim 1, wherein the replenishment application information includes: replenishment name, replenishment quantity and cut-off time.

6. The automated cabinet-based inventory management method of claim 2, wherein the shelf life risk is calculated from a combination of a sales rate and a storage rate.

7. An automated container machine based inventory management system, comprising:

the application supplement module is used for analyzing the selling frequency and the selling rate of the commodities according to the goods placing condition and the order condition in the system which are transmitted back by the sensor in the automatic container machine, generating supplement application information when the quantity of the remaining commodities in the automatic container machine is lower than an early warning value, and submitting the supplement application information to the goods distribution module;

the goods distribution module is used for comparing the goods replenishment application information with the total stock information, detecting whether the current total stock supports the goods replenishment application, if so, generating a goods distribution list, issuing the goods distribution list to the sorting robot, packing and delivering the distributed goods to the transportation robot by the sorting robot, and transporting the packed goods to the automatic goods cabinet machine by the transportation robot;

and the replenishment module is used for sweeping goods into the automatic container loader through the mobile terminal, and the mobile terminal sweeps the replenishment into a record and uploads the record to the cloud server.

8. The automated cabinet-based inventory management system of claim 7, further comprising:

and the quality guarantee period management module is used for acquiring the quality guarantee period of the replenishment trademark according to the replenishment code scanning record, searching and inquiring the quality guarantee periods of other commodities in the automatic container crane, sending a reminding and commodity fetching instruction to the mobile terminal if the commodities enter the quality guarantee period dangerous period, and taking out the commodities which enter the quality guarantee period dangerous period and then transporting the commodities by the transportation robot.

9. The automated cabinet-based inventory management system of claim 7, further comprising:

the inventory checking module is used for comparing the goods distribution list with the goods supplementing condition transmitted back by the sensor in the automatic container, adding the goods information on the goods distribution list into the existing inventory information if the goods information on the goods distribution list is consistent with the goods supplementing information transmitted back by the sensor in the automatic container, and inputting the result into the inventory database; if the commodity information on the goods allocation list is inconsistent with the goods supplementing information returned by the sensor in the automatic container machine, adding the goods supplementing information returned by the sensor in the automatic container machine into the existing inventory information, and inputting the result into the inventory database.

10. The automated cabinet-based inventory management system of claim 7, further comprising:

and the damage reporting module is used for judging whether the quality of the commodity is lost or not according to the commodity information transmitted back by the sensor in the automatic container crane, transmitting the damage information to the cloud server for storage if the quality of the commodity is lost, and generating a damage reporting list at intervals of preset time T.

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