CN115511137A

CN115511137A - Commodity warehousing management method, reservation method, server and supplier terminal

Info

Publication number: CN115511137A
Application number: CN202111216985.8A
Authority: CN
Inventors: 张强; 叶正康
Original assignee: Beijing Orange Heart Infinite Technology Development Co ltd
Current assignee: Beijing Orange Heart Infinite Technology Development Co ltd
Priority date: 2021-06-07
Filing date: 2021-10-19
Publication date: 2022-12-23
Also published as: CN113205200A

Abstract

The application provides a commodity warehousing management method, a reservation method, a server and a supplier terminal, and the method comprises the steps of firstly acquiring commodity warehousing configuration data of a target warehouse in each reservation time period; secondly, aiming at each reservation time period, determining the upper limit of the quantity of commodities which can be warehoused by a supplier in the reservation time period based on the commodity warehousing configuration data of the reservation time period; then, analyzing a target commodity warehousing request sent by a supplier terminal to obtain reservation information of target commodity warehousing; and finally, generating reservation feedback information based on the upper limit of the quantity of the commodities and the reservation information, and transmitting the reservation feedback information to the supplier terminal. Therefore, the reservation channel can be provided for the supplier to control the flow of warehouse goods entering so as to balance the receiving capacity of the warehouse and further ensure the delivery timeliness of the community group purchase goods.

Description

Commodity warehousing management method, reservation method, server and supplier terminal

Technical Field

The application relates to the field of warehouse material swallowing measurement management, in particular to a management method, an appointment method, a server and a supplier terminal for commodity warehousing.

Background

The community group buying is an internet online and offline shopping consumption behavior of a resident group in a real residential community, and is a regional, small, local and networked group buying form depending on the real community. Generally, a consumer places an order to purchase a commodity on a group purchasing platform, the group purchasing platform collects order information of the consumer after the group is cut, places the order to a corresponding supplier according to the order quantity of the consumer for purchase, the supplier distributes the required commodity to a warehouse of the platform, the warehouse carries out a series of operations such as quality inspection, counting, warehousing, sorting, wire arrangement and the like, then delivers the commodity to a driver, the driver distributes the commodity to a group leader, and the group leader informs the consumer to pick up the commodity, thereby completing the whole transaction flow. The selling mode is to arrange purchasing and delivery after the group is cut, so that the selling mode has no waste, low price and convenience in time, and therefore, the business mode is popular day by day.

At present, in the whole transaction process of group purchase in the community, most group purchase platforms promise to place orders on the same day and to deliver appointed dates, and as the appointed dates are the next day in order to ensure the timeliness of commodity purchase, the commodity needs to be delivered to a warehouse as soon as possible by a supplier, the warehouse needs to complete related operation tasks to deliver the commodity as soon as possible, and the commodity can be delivered to the advantages of the group on time to complete fulfillment. However, in the current community group purchase mode, no related planning and control is performed on merchant delivery and warehouse receipt, and the delivery and the management are both free modes that a supplier delivers the commodity at any time and the warehouse receives the commodity at any time, and the delivery timeliness of the community group purchase commodity cannot be guaranteed by the mode.

Disclosure of Invention

In view of the above, an object of the present invention is to provide a commodity warehousing management method, an appointment method, a server and a supplier terminal, which control warehouse commodity warehousing flow by providing an appointment channel for a supplier, so as to balance the receiving capacity of the warehouse, and further ensure the delivery timeliness of group purchase commodities for the community.

The embodiment of the application provides a management method for commodity warehousing, which is applied to a server and comprises the following steps:

acquiring commodity warehousing configuration data of a target warehouse in each bookable time period; the target warehouse is used for storing commodities which are sold by a shopping platform and are conveyed by different suppliers, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; the commodity warehousing configuration data comprises the opening number of the platforms of the target warehouse and the number of the receiving personnel allocated for the opened platforms;

for each reservable time period, determining the upper limit of the quantity of commodities which can be warehoused by a supplier in the reservation time period based on the commodity warehousing configuration data of the reservable time period;

analyzing a target commodity warehousing request sent by a supplier terminal to obtain reservation information of target commodity warehousing; the reservation information comprises a warehousing reservation time period and a warehousing quantity of the target commodity;

and generating reservation feedback information based on the upper limit of the quantity of the commodities and the reservation information, and transmitting the reservation feedback information to the supplier terminal.

In one possible embodiment, the generating reservation feedback information based on the upper limit of the quantity of the goods and the reservation information includes:

determining whether the sum of the warehousing quantity of the target commodity and the warehousing quantity reserved successfully by other suppliers in the warehousing reservation time period of the target commodity exceeds the upper limit of the warehousing quantity of the commodity corresponding to the warehousing reservation time period of the target commodity;

if not, generating reservation feedback information indicating successful commodity warehousing reservation;

if so, reservation feedback information indicating that the reservation of the commodity has failed is generated.

In a possible implementation manner, the reservation information of the target commodity warehousing further includes the category of the target commodity; the reservation feedback information indicating successful reservation in warehousing of the commodity also comprises a warehousing optimization platform of the target commodity which is successfully reserved;

the warehousing preference platform of the target commodity is determined based on any one of the category of the target commodity, the number of the warehoused commodities, and delivery habit data of the supplier.

In one possible embodiment, the warehousing preferred platform of the target commodity is determined by:

determining a platform closest to a sub-warehouse of commodities of the category capable of storing the target commodities in the target warehouse as a warehousing optimal platform of the target commodities;

or determining a platform corresponding to a sub-warehouse with the storage capacity matched with the warehousing commodity number of the target commodity in the target warehouse as a warehousing optimal platform of the target commodity;

or determining a common warehousing platform of the target product based on delivery habit data of a supplier of the target product, and determining the common warehousing platform as a warehousing optimal platform of the target commodity.

In a possible implementation, the management method further includes:

monitoring whether the commodity warehousing configuration data of the target warehouse changes in real time;

and if the commodity warehousing configuration data of the target warehouse are monitored to be changed, updating the upper limit of the quantity of commodities which can be warehoused in the bookable time period corresponding to the changed commodity warehousing configuration data based on the changed commodity warehousing configuration data of the target warehouse.

In one possible embodiment, the target warehouse is monitored whether the commodity warehousing configuration data of the target warehouse changes or not through the following steps:

acquiring commodity warehousing configuration data of the target warehouse in each bookable time period in real time;

comparing the currently acquired commodity warehousing configuration data with the commodity warehousing configuration data acquired before for each bookable time period;

and if the currently acquired commodity warehousing configuration data is different from the commodity warehousing configuration data acquired before, determining that the commodity warehousing configuration data of the bookable time period changes.

In one possible implementation, whether the commodity warehousing configuration data of the target warehouse changes is monitored by the following steps:

responding to the monitored adjustment operation of the commodity warehousing configuration data of the target warehouse, and acquiring the adjusted commodity warehousing configuration data and an appointment time period corresponding to the adjusted commodity warehousing configuration data;

comparing the adjusted commodity warehousing configuration data with the commodity warehousing configuration data recorded before;

and if the adjusted commodity warehousing configuration data are different from the previously recorded commodity warehousing configuration data, determining that the commodity warehousing configuration data of the target warehouse in the reserved time period corresponding to the adjusted commodity warehousing configuration data change.

In a possible implementation, the management method further includes:

responding to a trigger event for reserving commodity warehousing received from a supplier terminal, and acquiring a commodity quantity remainder of each reserving time period, wherein the commodity quantity remainder is a difference value between a commodity quantity upper limit of the reserving time period and a reserved commodity quantity of the reserving time period;

and sending the remainder of the number of commodities which can be put in storage in each reservation time period to the supplier terminal.

The embodiment of the application also provides a reservation method for commodity warehousing, which is applied to a supplier terminal and comprises the following steps:

responding to a trigger event of reserved warehousing information input by a user, and controlling to display a reserved item control for reserving delivery to a target warehouse in a user interface provided by the supplier terminal; the target warehouse is used for storing commodities which are sold by a shopping platform and are conveyed by different suppliers, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way;

responding to an operated instruction issued by a user aiming at the reservation entry control, generating a commodity warehousing request, and sending the commodity warehousing request to a server; the commodity warehousing request comprises an appointment-able time period and commodity warehousing quantity; the warehousing quantity of the commodities is controlled based on the upper limit of the warehousing quantity of the commodities which can be booked and corresponds to the bookable time period; the upper limit of the number of commodities is determined based on commodity warehousing configuration data of the target warehouse in the bookable time period, wherein the commodity warehousing configuration data comprise the opening number of the platform of the target warehouse and the number of receiving personnel allocated for the opened platform;

and receiving and displaying reservation feedback information generated and sent by the server based on the commodity warehousing request.

In one possible embodiment, the reservation entry control includes at least one of: the time period control, the warehousing quantity control and the commodity class control can be reserved.

In one possible embodiment, the reservation method further includes:

and responding to a triggering event of the reserved warehousing information input by the user, and receiving a commodity quantity remainder of each reserved time period, wherein the commodity quantity remainder is a difference value between a commodity quantity upper limit of the reserved time period and a reserved commodity quantity of the reserved time period.

In one possible embodiment, the reservation method further includes:

and when the warehousing quantity control is displayed, displaying the commodity quantity remainder of the bookable time determined by the user.

An embodiment of the present application further provides a server, where the server includes:

the configuration data acquisition module is used for acquiring commodity warehousing configuration data of the target warehouse in each bookable time period; the target warehouse is used for storing commodities transported by different suppliers and sold by a shopping platform, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; the commodity warehousing configuration data comprises the opening number of the platforms of the target warehouse and the number of the receiving personnel allocated for the opened platforms;

the upper limit determining module is used for determining the upper limit of the quantity of commodities which can be warehoused by a supplier in each bookable time period based on the commodity warehousing configuration data of the bookable time period;

the information analysis module is used for analyzing a target commodity warehousing request sent by a supplier terminal to obtain reservation information of target commodity warehousing; the reservation information comprises a warehousing reservation time period and a warehousing quantity of the target commodity;

and the feedback module is used for generating reservation feedback information based on the upper limit of the quantity of the commodities and the reservation information and transmitting the reservation feedback information to the supplier terminal.

In one possible embodiment, the feedback module, when configured to generate the reservation feedback information based on the upper limit of the quantity of the good and the reservation information, is configured to:

In one possible embodiment, the feedback module is configured to determine the warehousing preferred platform of the target commodity by:

or determining a platform corresponding to a sub-warehouse with the storage amount matched with the warehousing commodity number of the target commodity in the target warehouse as a warehousing optimal platform of the target commodity;

In one possible embodiment, the server further comprises a monitoring module configured to:

and if the commodity warehousing configuration data of the target warehouse are monitored to be changed, updating the upper limit of the quantity of commodities which can be warehoused in the bookable time period corresponding to the changed commodity warehousing configuration data based on the commodity warehousing configuration data after the change of the target warehouse.

In one possible embodiment, the monitoring module is configured to monitor whether the commodity warehousing configuration data of the target warehouse is changed by:

and if the adjusted commodity warehousing configuration data is different from the commodity warehousing configuration data recorded before, determining that the commodity warehousing configuration data of the target warehouse in the reserved time period corresponding to the adjusted commodity warehousing configuration data changes.

In one possible embodiment, the server further comprises a remainder determination module configured to:

responding to a trigger event of receiving reservation warehousing information from a supplier terminal, and acquiring a commodity quantity remainder of each reservation time period, wherein the commodity quantity remainder is a difference value between a commodity quantity upper limit of the reservation time period and a reserved commodity quantity of the reservation time period;

An embodiment of the present application further provides a provider terminal, where the provider terminal includes:

the control display module is used for responding to a triggering event of the reserved warehousing information input by the user and controlling to display a reserved item control for reserving goods delivery to the target warehouse in a user interface provided by the supplier terminal; the target warehouse is used for storing commodities which are sold by a shopping platform and are conveyed by different suppliers, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way;

the request sending module is used for responding to an operation instruction issued by a user aiming at the reservation entry control, generating a commodity warehousing request and sending the commodity warehousing request to the server; the commodity warehousing request comprises an appointment-able time period and commodity warehousing quantity; the warehousing quantity of the commodities is controlled based on the upper limit of the warehousing quantity of the commodities which can be booked and corresponds to the bookable time period; the upper limit of the number of commodities is determined based on commodity warehousing configuration data of the target warehouse in the bookable time period, wherein the commodity warehousing configuration data comprise the opening number of the platform of the target warehouse and the number of receiving personnel allocated for the opened platform;

and the feedback receiving module is used for receiving and displaying reservation feedback information generated and sent by the server based on the commodity warehousing request.

In one possible embodiment, the appointment entry control includes at least one of: a reserved time period control, a warehousing quantity control and a commodity class control.

In one possible implementation, the provider terminal further includes a remainder receiving module, the remainder receiving module is configured to:

In one possible embodiment, the supplier terminal further comprises a remainder display module for:

and when the warehousing quantity control is operated, displaying the commodity quantity remainder of the bookable time selected by the user.

An embodiment of the present application further provides an electronic device, including: a processor, a memory and a bus, the memory storing machine-readable instructions executable by the processor, the processor and the memory communicating over the bus when the electronic device is running, the machine-readable instructions, when executed by the processor, performing the steps of the management method or the reservation method as described above.

Embodiments of the present application further provide a computer-readable storage medium, where a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the computer program performs the steps of the management method or the reservation method as described above.

Embodiments of the present application further provide a computer program product, which includes a computer program or instructions, and the computer program or instructions, when executed by a processor, implement the steps of the management method or the reservation method as described above.

According to the commodity warehousing management method, the reservation method, the server and the supplier terminal, commodity warehousing configuration data of a target warehouse in each reserved time period are obtained; the goods used for storing the goods sold by the shopping platform and conveyed by different suppliers are delivered to the pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; the commodity warehousing configuration data comprises the opening number of the platforms of the target warehouse and the number of the receiving personnel allocated for the opened platforms; then, for each reservable time period, determining the upper limit of the quantity of commodities which can be warehoused by the supplier in the reservation time period based on the commodity warehousing configuration data of the reservable time period; then, analyzing a target commodity warehousing request sent by a supplier terminal to obtain reservation information of target commodity warehousing; the reservation information comprises a warehousing reservation time period and a warehousing quantity of the target commodity; and finally, generating reservation feedback information based on the upper limit of the quantity of the commodities and the reservation information, and transmitting the reservation feedback information to the supplier terminal. Through the mode of this application embodiment, can provide the flow that the reservation passageway comes control warehouse commodity to put in storage for the supplier to the receiving capacity of balanced warehouse, and then guarantee the delivery time efficiency of community group purchase commodity.

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a flowchart of a method for managing warehousing of commodities according to an embodiment of the present application;

fig. 2 is a flowchart of another method for managing warehousing of commodities according to an embodiment of the present application;

fig. 3 is a flowchart of an appointment method for warehousing commodities, provided in an embodiment of the present application;

FIG. 4 (a) is a schematic view of a user interface provided in an embodiment of the present application;

FIG. 4 (b) is a second schematic diagram of a user interface provided in the embodiment of the present application;

FIG. 4 (c) is a third schematic diagram of a user interface provided in the embodiment of the present application;

FIG. 5 is a fourth schematic view of a user interface provided in an embodiment of the present application;

FIG. 6 is a schematic diagram of a warehousing process of commodities;

fig. 7 is a schematic structural diagram of a server according to an embodiment of the present application;

fig. 8 is a second schematic structural diagram of a server according to the second embodiment of the present application;

fig. 9 is a schematic structural diagram of a provider terminal according to an embodiment of the present disclosure;

fig. 10 is a second schematic structural diagram of a provider terminal according to an embodiment of the present application;

fig. 11 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

In order to make the purpose, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it should be understood that the drawings in the present application are only for illustration and description purposes and are not used to limit the protection scope of the present application. Additionally, it should be understood that the schematic drawings are not necessarily drawn to scale. The flowcharts used in this application illustrate operations implemented according to some embodiments of the present application. It should be understood that the operations of the flow diagrams may be performed out of order, and steps without logical context may be performed in reverse order or simultaneously. One skilled in the art, under the guidance of this application, may add one or more other operations to, or remove one or more operations from, the flowchart.

In addition, the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application.

To enable those skilled in the art to use the present disclosure, the following embodiments are given in conjunction with a specific application scenario "community group buying". It will be apparent to those skilled in the art that the general principles defined herein may be applied to other embodiments and applications without departing from the spirit and scope of the application. Although the present application is mainly described in the context of community group buying, it should be understood that the present application embodiment may be applied to other shopping scenarios besides the above-mentioned application scenario of community group buying, and the application scenario of community group buying is only an exemplary embodiment.

It should be noted that the term "comprising" will be used in the embodiments of the present application to indicate the presence of the features stated hereinafter, but does not exclude the addition of further features.

The community group buying is an internet online and offline shopping consumption behavior of a resident group in a real residential community, and is a regional, small, local and networked group buying form depending on the real community. Generally, a consumer takes a purchase order from a group purchasing platform to purchase a commodity, the group purchasing platform collects order information of the consumer after the group is cut, the order is placed and purchased to a corresponding supplier according to the order quantity of the consumer, the supplier distributes the required commodity to a warehouse of the platform, the warehouse carries out a series of operations such as quality inspection, counting, warehousing, sorting, wire arrangement and the like, then the commodity is delivered to a driver, the driver delivers the commodity to a group leader, and the group leader informs the consumer to pick up the commodity to complete the whole transaction process. The selling mode is to arrange purchasing and delivery after the group is cut, so that the selling mode has no waste, low price and convenience in time, and therefore, the business mode is popular day by day.

At present, in the whole transaction flow of group purchase in the community, most group purchase platforms promise to place orders on the same day and deliver the orders on the appointed date, and because the appointed date is the next day in order to ensure the timeliness of commodity purchase, a supplier needs to deliver commodities to a warehouse as soon as possible, and the warehouse needs to complete related operation tasks to deliver the commodities out as soon as possible, so that the commodities can be delivered to the group advantage on time to complete fulfillment. However, in the current community group buying mode, no related planning and control is performed on merchant delivery and warehouse receiving, and the mode is a free mode that a supplier delivers goods at any time and the warehouse receives goods at any time. In the current mode, the supplier can freely deliver goods according to the time of the supplier, and the warehouse can receive goods from time to time, so that the following problems can be caused: firstly, the warehouse cannot sense the delivery condition of a supplier in advance and cannot arrange the receiving manpower in a targeted manner; secondly, a large number of suppliers gather in the warehouse for delivery at a certain moment, and due to the fact that the platforms for receiving the commodities in the warehouse are limited and the manpower is limited, some suppliers need to wait in line, if too many suppliers waiting in line can cause some suppliers to wait until the warehouse is out of work and not be scheduled for delivery, the commodities can not be delivered on time, and the delivery timeliness of the group purchased commodities in the community can not be guaranteed.

Based on the above, the embodiment of the application provides a commodity warehousing management method, which controls warehouse commodity warehousing flow by providing a reservation channel for a supplier so as to balance the receiving capacity of a warehouse and further ensure delivery timeliness of community group purchase commodities.

Referring to fig. 1, fig. 1 is a flowchart illustrating a method for managing warehousing of commodities according to an embodiment of the present disclosure. The management method for warehousing commodities can be executed by a server, and as shown in fig. 1, the specific execution process of the management method for warehousing commodities comprises the following steps:

s101, acquiring commodity warehousing configuration data of a target warehouse in each bookable time period; the target warehouse is used for storing commodities transported by different suppliers and sold by a shopping platform, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; the goods warehousing configuration data include the number of open platforms of the target warehouse and the number of consignees allocated for the open platforms.

And step S102, aiming at each reservable time period, determining the upper limit of the quantity of commodities which can be warehoused by the supplier in the reservation time period based on the commodity warehousing configuration data of the reservable time period.

Step S103, analyzing a target commodity warehousing request sent by a supplier terminal to obtain reservation information of target commodity warehousing; the reservation information comprises a warehousing reservation time period and warehousing quantity of the target commodity.

And step S104, generating reservation feedback information based on the upper limit of the quantity of the commodities and the reservation information, and transmitting the reservation feedback information to the supplier terminal.

The embodiment of the application provides a commodity warehousing management method, which comprises the steps of firstly, acquiring commodity warehousing configuration data of a target warehouse in each bookable time period; the target warehouse is used for storing commodities which are sold by a shopping platform and are conveyed by different suppliers, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; then, aiming at each reservable time period, determining the upper limit of the quantity of commodities which can be warehoused by the supplier in the reservation time period based on the commodity warehousing configuration data of the reservable time period; then, analyzing a target commodity warehousing request sent by a supplier terminal to obtain reservation information of target commodity warehousing; the reservation information comprises a warehousing reservation time period and a warehousing quantity of the target commodity; and finally, generating reservation feedback information based on the upper limit of the quantity of the commodities and the reservation information, and transmitting the reservation feedback information to the supplier terminal. Through the mode of this application embodiment, can provide the flow that the reservation passageway comes control warehouse commodity to put in storage for the supplier to the receiving capacity of balanced warehouse, and then guarantee the arrival time limit of community group purchase commodity.

The following describes exemplary steps of an embodiment of the present application:

in step S101, commodity warehousing configuration data of the target warehouse in each bookable time period is acquired.

In this embodiment of the application, the target warehouse is used to store commodities that are sold by the shopping platform and are delivered by different suppliers, the target warehouse may be a warehouse cluster including a plurality of sub-warehouses that are cooperated by the shopping platform in a target area and are used for warehousing or ex-warehouse commodities, each sub-warehouse is used to store the warehoused commodities, as an example, the warehoused commodities may be commodities that are scheduled by a supplier after the shopping platform orders the commodities selected by a consumer on the shopping platform, and the commodities that are delivered by the supplier through logistics based on the ordering condition of the shopping platform, wherein the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse, and the pre-buyer is an organization group that distributes the commodities to the consumer in a centralized manner after the shopping platform sells the commodities through a group buying.

In addition, the sub-warehouse may be a storage space for storing any goods, or may be a storage area classified based on different categories according to actual situations, for example, the different categories of the sub-warehouse may include: storage, item type, region attributes, etc. For example, when the sub-warehouses are classified by storage amount, there may be a sub-warehouse that can store 100 square meters of goods, a sub-warehouse that can store 1000 square meters of goods, or the like; when the sub-warehouses are classified according to the commodity types, the sub-warehouses can be used for storing chilled commodities and sub-warehouses for storing fruit and vegetable commodities; when the sub-warehouses are classified by the area attribute, they may be a sub-warehouse for storing the commodities in the target area to be allocated to the area a, a sub-warehouse for storing the commodities in the target area to be allocated to the area B, or the like. Here, those skilled in the art should note that the classification of the sub-warehouse is not limited to the above classification, and the present application is not limited thereto.

In addition, in this embodiment, the goods warehousing configuration data may include the number of open platforms of the target warehouse and the number of receiving staff provided for the open platforms. Here, the dock may refer to a window or a location, etc. provided in the target warehouse for receiving and counting the goods. Further, as an example, since the platform and the sub-warehouse are fixed in position, the platform corresponds to the corresponding sub-warehouse, for example, the platform closest to the sub-warehouse storing the chilled goods is the chilled platform; the platform closest to the sub-warehouse where 1000 square meters of goods can be stored is a bulk goods unloading platform or the like.

In the actual scene of commodity warehousing, a supplier usually delivers goods at any time according to the condition of the supplier, the platforms of a target warehouse are connected at any time, and due to the limitation of the open number of the platforms for receiving the commodities in the target warehouse and the number of the goods receiving personnel equipped for each platform, if a large number of commodities are transported to the target warehouse to be intensively warehoused in the same time period, the supplier can spend a large amount of unnecessary time waiting for the commodities to be warehoused, and meanwhile, the commodity warehousing order of the target warehouse can be disordered, and the delivery timeliness of the community group purchase commodities can be influenced.

Based on this, the supplier can be provided with an optional period of delivery to the target warehouse, namely a reserved period of time, which can be reserved in advance. Specifically, different reservable time periods can be preset, so that the supplier can deliver goods in the reserved reservable time periods, and the situation of goods delivery congestion is avoided.

In step S102, for each reservable time period, an upper limit of the number of commodities that can be warehoused by the supplier in the reservation time period is determined based on the commodity warehousing configuration data of the reservable time period.

In the embodiment of the present application, the upper limit of the number of commodities refers to the maximum number of commodities that can be put in the target warehouse in the corresponding reservation time period. For example, in the bookable time period of 20XX year Y month Z day 9.

Here, after the open number of the platforms of the target warehouse per the reservable time period and the number of the receiving persons provided for the open platforms are acquired, the upper limit of the number of the commodities which can be warehoused at the corresponding reservable time period may be determined based on the open number of the platforms of the target warehouse per the reservable time period and the number of the receiving persons provided for the open platforms.

Specifically, for each reservable time period, the number of open platforms of the target warehouse for the reservable time period, the number of consignees provided on the open platforms, the number of consignees per time unit per consignee, and the unit time included in the reservable time period may be statistically processed to obtain the upper limit of the number of commodities in the reservable time period.

In one embodiment, the opening number of the platform of the target warehouse of the reservable time period, the number of the consignees provided at the opened platform, the number of the consignees per unit time of each consignee, and the unit time included in the reservable time period may be multiplied to obtain the upper limit of the number of goods in the reservable time period. For example, in the reservable time period of Y month Q day 9-00 in 20XX, 5 months of the target warehouse B may simultaneously perform warehousing of goods, each month is provided with 2 receiving persons, the opening number of the month platforms of the preconfigured target warehouse that each receiving person can complete in 1 hour is 500, and then, in the reservable time period of Y month Q day 9 in 20 XX: 5 × 2 × 2 × 500=10000 pieces.

In another embodiment, weights of the number of openings of the platform of the target warehouse of the bookable time period and the number of receiving persons provided for the opened platform may be set in advance, respectively, where the weights indicate the degree of influence of the number of openings of the platform or the number of receiving persons on the actual warehousing of the goods. When the upper limit of the number of products in the reservable time period is determined, the open number of the platform of the target warehouse in the reservable time period, the weight corresponding to the open number of the platform, the number of receiving persons equipped at the open platform, the weight corresponding to the number of receiving persons, the number of receiving persons per unit time of each receiving person, and the unit time included in the reservable time period may be multiplied. For example, in the reservable time period of Y month Q day 9-00 in 20XX, 5 months of the target warehouse B may simultaneously perform warehousing of goods, the weight corresponding to the opening number of the platforms is 0.7, each platform is allocated with 2 receiving persons, the weight corresponding to the number of the receiving persons is 0.8, and the opening number of the platforms of the preconfigured target warehouse that each receiving person can complete in 1 hour is 500, then, in the reservable time period of Y month Q day 9 in 20XX, the upper limit of the number of goods is: 5 × 0.7 × 2 × 0.8 × 2 × 500=5600 pieces.

Through the steps S101 and S102, the upper limit of the number of commodities that can be warehoused in the target warehouse in each reservation time period can be determined.

Next, in step S103, the target commodity warehousing request sent by the supplier terminal is analyzed to obtain reservation information of target commodity warehousing.

In the embodiment of the application, a target commodity warehousing request sent by a supplier terminal for reserving warehousing of commodities can be received in real time, and the target commodity warehousing request is analyzed to obtain the reservation information of warehousing of the target commodities. Here, the reservation information may include a warehousing reservation time period and a warehousing quantity of the target goods.

In step S104, reservation feedback information is generated based on the upper limit of the number of commodities and the reservation information, and the reservation feedback information is transmitted to the supplier terminal.

It should be noted that: the reservation feedback information may characterize whether the supplier made the reservation successfully, i.e., whether the supplier may ship to the target warehouse within the reserved reservable time period. As an example, the reservation feedback information may include a warehousing reservation time period, a warehousing quantity, a category of the target commodity, and the like of the target commodity. Those skilled in the art should note that the content included in the subscription feedback information is only exemplary, and the content included in the subscription feedback information is not limited thereto, and is not described herein again.

It should be noted that, because the target warehouse is used for storing different commodities sold by the shopping platform, and suppliers of different commodities are not necessarily the same, and the target warehouse may receive warehousing requests reserved by different suppliers, so that warehousing requests of target commodities sent by different suppliers for the same reservable time period may be received.

As an example, in implementation, it may be determined whether the supplier can subscribe successfully by: determining whether the sum of the warehousing quantity of the target commodity and the warehousing quantity reserved by other suppliers in the warehousing reservation time period of the target commodity exceeds the upper limit of the warehousing quantity of the commodity corresponding to the warehousing reservation time period of the target commodity; if the quantity of the commodities exceeds the preset value, generating reservation feedback information indicating successful commodity warehousing reservation so as to inform a supplier that the target commodities can be warehoused to a target warehouse within the reservable time period; if the reservation time exceeds the preset reservation time, reservation feedback information indicating the commodity reservation failure is generated to inform the supplier that the target commodity cannot be put into the target warehouse in the reserved time period, so that the supplier reserves other reserved time to put the target commodity into the target warehouse.

For example, the bookable time period reserved by the supplier W is 20XX years, Y month, R day 10-00, and the warehousing quantity of the target goods booked by the supplier W in the bookable time period is 1000 pieces, at this time, the warehousing quantity of the goods booked by other suppliers in the bookable time period can be acquired, if the upper limit of the goods quantity of the target warehouse in the bookable time period is 5000 pieces, and if the total quantity of the warehousing quantities of the goods booked successfully by the suppliers D, E and F in the bookable time period is 4800 pieces, then in the bookable time period, the warehousing quantity sum of the goods of the suppliers W and D, E and F and 5800 pieces is more than 5000 pieces, the supplier W will fail to reserve; if the total number of the commodity warehousing quantities reserved successfully by the suppliers D, E and F in the reservable time period is 3800, the reservation of the supplier W is successful if the sum of the commodity warehousing quantities of the supplier W and the suppliers D, E and F is 4800 pieces smaller than 5000 in the reservable time period.

In addition, after the total quantity of the commodities in storage does not exceed the upper limit of the commodities in storage, the storage optimization platform of the target commodities can be additionally provided for the supplier, so that the supplier can directly convey the commodities to the corresponding platform during delivery, and the time for searching for the unloading platform is saved.

Preferably, in another embodiment of the present application, the reservation information of the target commodity warehousing further includes a category of the target commodity; the reservation feedback information indicating successful reservation for commodity warehousing also comprises a warehousing optimization platform of the target commodity with successful reservation; the warehousing preference platform of the target goods may be determined based on any one of the category of the target goods, the number of the warehoused goods, and the delivery habit data of the supplier.

In one embodiment, a platform closest to a sub-warehouse of the target warehouse where the item of the target commodity is stored is determined as a warehousing preferred platform of the target commodity.

For example, when the type of the target product is a frozen fresh product, the requirement of the fresh product on the storage condition of the sub-warehouse for storage is high, and if the storage is wrong (for example, the storage is in a high-temperature environment, etc.), the quality of the product may be affected, at this time, the fresh product may preferably need to be stored in the nearby sub-warehouse for storing the frozen fresh product.

In another embodiment, a platform corresponding to a sub-warehouse whose storage amount in the target warehouse matches the number of warehoused goods of the target goods may be determined as the warehousing preferred platform of the target goods.

For example, when the quantity of target commodities reserved for warehousing is large, if the target commodities are warehoused to a sub-warehouse with a small storage space, if the storage space is insufficient, the target commodities need to be separately stored, and therefore the trouble of ex-warehouse searching is caused.

In another embodiment, a common warehousing platform of the target product may be determined based on delivery habit data of a supplier of the target product, and the common warehousing platform may be determined as a warehousing preferred platform of the target commodity.

For example, in the actual delivery scenario, sometimes the supplier often unloads the goods to a certain platform based on some limitations of the supplier, for example, the goods can be unloaded only at several platforms based on the limitations of the size or type of the vehicle loading the goods, and therefore, the warehousing preferred platform of the target goods can be determined based on the pre-stored delivery habit data of the target product before the supplier. Here, the delivery habit data may include one or more of detected platforms previously unloaded by the supplier, the number of warehoused goods, and carrier parameters for housing goods. For example, a vehicle loaded with goods by a supplier has a large volume, and when the vehicle is unloaded at a platform outside a target warehouse, the vehicle loaded with goods will affect the entering of other vehicles, so that the vehicle with the large volume will usually stop at several special platforms which have little influence on the entering of other vehicles, and therefore, the platform where the goods by the supplier are put in storage at this time can be determined based on the data of the platforms stopped by the supplier before.

In addition, since the usage scenario of the present application relates to a "community group buying" scenario, in this scenario, the group buying platform may occasionally organize various sales promotion activities, and in general, it is expected that the flow rate of the target warehouse may increase in a future sales promotion period in the sales promotion activities, and at this time, the commodity warehousing configuration data of the target warehouse is adjusted based on the change of the actual flow rate, and at this time, the upper limit of the quantity of commodities determined by using the previous commodity warehousing configuration data will have no reference value. For example, there may be a case where the number of articles stored in the reservable time period exceeds the upper limit of the number of articles. In order to solve the problem, the present application provides a method for updating an upper limit of a quantity of commodities according to a change of commodity warehousing configuration data of a target warehouse, which can monitor a change condition of the commodity warehousing configuration data of the target warehouse in real time, and adjust a corresponding upper limit of a quantity of commodities which can be warehoused in an appointment time period according to the commodity warehousing configuration data after the change of the target warehouse, and will be described with reference to fig. 2 below:

referring to fig. 2, fig. 2 is a flowchart illustrating another method for managing warehousing of commodities according to an embodiment of the present application. In a preferred example of the present application, the method for managing the warehousing of the commodities further includes, as shown in fig. 2, step S201 and step S202 in addition to step S101, step S102, step S103 and step S104.

In step S201, whether the commodity warehousing configuration data of the target warehouse changes is monitored in real time.

Regarding step S201, in an embodiment, whether the commodity warehousing configuration data of the target warehouse changes may be monitored by the following steps:

firstly, commodity warehousing configuration data of a target warehouse in each bookable time period is obtained in real time.

As an example, the monitoring and the obtaining of the commodity warehousing configuration data of the target warehouse in each bookable time period may be realized by monitoring the number of the opening of the platforms in the target warehouse and the number of the consignees working in each platform.

For example, since a sales promotion activity is to be performed at a future time, the administrator or other related personnel of the target warehouse has an authority to adjust the commodity warehousing configuration data of the target warehouse, the administrator or other related personnel of the target warehouse may add a new platform for temporarily warehousing commodities in the warehouse management system, and/or the administrator or other related personnel of the target warehouse may add new receiving personnel in the warehouse shift scheduling system, at this time, the number of the opened platforms and/or the number of receiving personnel provided for the opened platforms may change, and in this case, the number of the opened platforms of the target warehouse and/or the number of receiving personnel provided for the opened platforms may be monitored at any time to obtain the commodity warehousing configuration data of the target warehouse in each bookable time period.

Then, for each reservable time period, the currently acquired commodity warehousing configuration data is compared with the commodity warehousing configuration data acquired before. And if the currently acquired commodity warehousing configuration data are different from the previously acquired commodity warehousing configuration data, determining that the commodity warehousing configuration data of the bookable time period change.

For example, if the number of currently monitored openings of the platform of the target warehouse in the bookable time period is 6 and the number of previously stored openings of the platform of the target warehouse in the bookable time period is 3, it is known by comparison that the number of currently monitored openings of the platform of the target warehouse in the bookable time period is different from the number of previously stored openings of the platform of the target warehouse in the bookable time period, and it is determined that the commodity warehousing configuration data of the bookable time period has changed. Here, a change in one or both of the number of open platforms and the number of receivers provided for the open platforms is determined as a change in the commodity warehousing configuration data for the reservation time period. On the other hand, if the comparison result shows that the currently acquired commodity warehousing configuration data is the same as the commodity warehousing configuration data acquired before, it is determined that the commodity warehousing configuration data of the bookable time period is not changed. Accordingly, the upper limit of the number of products corresponding to the bookable time zone does not change.

In addition, since the target warehouse administrator or other relevant personnel has adjustment operations on the commodity warehousing configuration data of the target warehouse and does not mean that the commodity warehousing configuration data of the target warehouse will change certainly, in order to accurately determine whether the commodity warehousing configuration data of the target warehouse has changes, in another embodiment, whether the commodity warehousing configuration data of the target warehouse changes can be monitored through the following steps:

firstly, responding to the monitored adjustment operation of the commodity warehousing configuration data of the target warehouse, and acquiring the adjusted commodity warehousing configuration data and an appointment time period corresponding to the adjusted commodity warehousing configuration data.

And then comparing the adjusted commodity warehousing configuration data with the commodity warehousing configuration data recorded before. And if the adjusted commodity warehousing configuration data is different from the commodity warehousing configuration data recorded before, determining that the commodity warehousing configuration data of the target warehouse in the reserved time period corresponding to the adjusted commodity warehousing configuration data changes.

If the commodity warehousing configuration data of the target warehouse is monitored to be changed, in step S202, the warehousing-available commodity number upper limit of the bookable time period corresponding to the changed commodity warehousing configuration data is updated based on the changed commodity warehousing configuration data of the target warehouse.

Specifically, when the change of the commodity warehousing configuration data is monitored, the changed commodity warehousing configuration data, for example, the number of the opened platforms of the changed target warehouse and the number of the receiving staff equipped for the opened platforms, may be obtained, and the updated upper limit of the commodity quantity may be determined in the above-mentioned commodity quantity upper limit determination manner, for example, the upper limit of the commodity quantity after the change of the commodity warehousing configuration data in the bookable time period of 20XX year, Y month, R day 10-11 is 6000, and the upper limit of the commodity quantity in the bookable time period is 5000, and at this time, the upper limit of the commodity quantity in the bookable time period may be updated from 5000 to 6000.

By the mode, the upper limit of the quantity of commodities which can be put in storage in the reserved time period can be automatically adjusted according to the actual condition of the target warehouse, the time for manually modifying the upper limit of the quantity of commodities is saved, and the situations of modification errors and forgetting to modify due to the fact that the upper limit of the quantity of commodities is manually modified are further avoided.

Further, in order to facilitate the supplier to select the bookable time suitable for delivery according to the remainder of the number of warehoused commodities of the target warehouse in each bookable time period, in one embodiment, the management method additionally includes the step of transmitting the number of commodities bookable at the bookable time to the supplier terminal (not shown in fig. 1).

Specifically, after determining the upper limit of the number of commodities that can be warehoused in each bookable time period, in response to a trigger event that the bookable warehousing information is received from the supplier terminal, the remainder of the number of commodities in the bookable time period is obtained for each bookable time period, and then the remainder of the number of commodities that can be warehoused in each bookable time period is transmitted to the supplier terminal.

Here, the remainder of the number of commodities is a difference between the upper limit of the number of commodities in the reservable time zone and the number of commodities reserved in the reservable time zone. In addition, the trigger event of the reservation warehousing information may be an event that the supplier starts a delivery reservation program through the supplier terminal, for example, an event that the supplier enters a delivery reservation page after an application program for reserving delivery is started, and the like.

For example, when a supplier wants to deliver goods to a target warehouse, the supplier enters an appointed delivery interface by clicking an appointed delivery control in an appointed delivery application, at the moment, the supplier terminal is considered to trigger a trigger event of appointed warehousing information, and the server responds to the trigger event of the appointed warehousing information received from the supplier terminal and determines the remainder of the number of goods in each appointed time period; specifically, for each reservable time period, the remainder of the quantity of commodities which can be warehoused in the reservable time period can be determined according to the difference value between the upper limit of the quantity of commodities of the reservable time period and the quantity of commodities of reserved commodities to be warehoused in the reservable time period, and the remainder of the quantity of commodities which can be warehoused in the reservable time period is sent to the supplier terminal to prompt the supplier to apply for the quantity of warehoused commodities in each reservable time period, and the supplier can select the distribution time suitable for the supplier according to the quantity of commodities in each reservable time period.

According to the commodity warehousing management method provided by the embodiment of the application, the reservation channel can be provided for the supplier to control the flow of warehouse commodity warehousing so as to balance the receiving capacity of the warehouse and further guarantee the delivery timeliness of community group purchase commodities.

Referring to fig. 3, fig. 3 is a flowchart of a method for reserving a commodity warehouse according to an embodiment of the present application. The reservation method can be executed by a supplier terminal, as shown in fig. 3, the specific execution process of the reservation method for warehousing the commodity is as follows:

step S301, responding to a trigger event of reservation warehousing information, and controlling a reservation item control for reserving delivery to a target warehouse to be displayed in a user interface provided by the supplier terminal; the target warehouse is used for storing commodities which are sold by a shopping platform and are conveyed by different suppliers, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities for consumers in a centralized way after the commodities are sold by the shopping platform in a group-buying way.

Step S302, responding to an operation instruction issued by a user aiming at the reservation entry control, generating a commodity warehousing request, and sending the commodity warehousing request to a server; the commodity warehousing request comprises an appointment-able time period and commodity warehousing quantity; the warehousing quantity of the commodities is controlled based on the upper limit of the warehousing quantity of the commodities which can be booked and corresponds to the bookable time period; the upper limit of the number of commodities is determined based on commodity warehousing configuration data of the target warehouse in the bookable time period, the commodity warehousing configuration data including the opening number of the platform of the target warehouse and the number of receiving personnel equipped for the opened platform.

And step S303, receiving and displaying reservation feedback information generated and sent by the server based on the commodity warehousing request.

The embodiment of the application provides a method for reserving goods for warehousing, which comprises the steps of responding to a trigger event of reserving warehousing information, and controlling to display a reservation item control for reserving goods delivery to a target warehouse in a user interface provided by a supplier terminal; the target warehouse is used for storing commodities which are sold by a shopping platform and are conveyed by different suppliers, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; then responding to the operation of the reservation entry control, generating a commodity warehousing request, and sending the commodity warehousing request to a server; the commodity warehousing request comprises an appointment-able time period and commodity warehousing quantity; the warehousing quantity of the commodities is controlled on the basis of the upper limit of the warehousing quantity of the commodities corresponding to the bookable time period; the upper limit of the number of commodities is determined based on commodity warehousing configuration data of the target warehouse in the bookable time period, wherein the commodity warehousing configuration data comprise the opening number of the platform of the target warehouse and the number of receiving personnel allocated for the opened platform; and finally, receiving and displaying reservation feedback information generated and sent by the server based on the commodity warehousing request. Through the mode of this application embodiment, can be through providing the flow that the reservation passageway comes control warehouse commodity to put in storage for the supplier to the receiving capacity in balanced warehouse, and then guarantee the delivery time efficiency of community group purchase commodity.

The following describes exemplary steps in an embodiment of the present application:

in step S301, in response to a trigger event of the reservation warehousing information, a reservation entry control for reserving delivery to the target warehouse is controlled to be displayed in a user interface provided by the supplier terminal.

Further, the reservation entry control includes at least one of: a reserved time period control, a warehousing quantity control and a commodity class control. The trigger event of the reservation warehousing information may refer to an event that the supplier starts a delivery reservation program through the supplier terminal before the supplier delivers the goods to the target warehouse, for example, an application program for the delivery reservation is started, and the supplier enters a delivery reservation page; or when the supplier clicks the reserved delivery control in the application program of the reserved delivery; or the supplier searches keywords such as delivery and the like in the user interface and enters a page for reserving delivery, and the supplier can be considered to trigger a triggering event of reserving warehousing information. Here, those skilled in the art should note that the trigger event of the reservation warehousing information is not limited to the trigger time, and the trigger event of the reservation warehousing information in the present application is not limited thereto, and the present application is not limited thereto.

At this time, a reservation entry control for reserving delivery of the target warehouse for the supplier can be displayed in a user interface provided by the supplier terminal. Here, the reservation entry control means a control that the supplier can select transportation information such as delivery time point, commodity warehousing quantity, commodity category, and the like by touch, and the supplier can select a suitable commodity warehousing time from the reservable time periods by touch through a reservable time period control included in the reservation entry control, for example, three reservable time period controls can be displayed on the user interface, where the reservable time period corresponding to the "reservable time period control 1" is a reservable time period of 20XX year Y month Q day 10 to 11.

Further, the supplier can select the warehousing quantity of the commodity through a warehousing quantity control included in the touch reservation entry control. For example, three warehousing quantity controls may be displayed in the user interface, the warehousing quantity of the commodities corresponding to the "warehousing quantity control 1" is 200, the warehousing quantity of the commodities corresponding to the "warehousing quantity control 2" is 300, the warehousing quantity of the commodities corresponding to the "warehousing quantity control 3" is 400, and when the supplier touches the "warehousing quantity control 1", it indicates that the warehousing quantity of the commodities warehoused by the supplier is 200.

Further, the supplier may select the type of the commodity to be warehoused through a commodity type control included in the touch reservation entry control, for example, two commodity type controls may be displayed on the user interface, where the commodity type corresponding to the "commodity type control 1" is a chilled commodity and the commodity type corresponding to the "commodity type control 2" is a fruit and vegetable commodity, and when the supplier touches the "commodity type control 1", it indicates that the commodity type that the supplier wants to warehouse is a chilled commodity.

It should be noted that the display mode of the reservation entry control may be simultaneous display, that is, a reservable time period control, a warehousing quantity control, and a commodity class control in the reservation entry control are simultaneously displayed; the bookable time period control, the warehousing quantity control and the commodity class control in the booking entry control can also be displayed step by step in a step-by-step display mode, for example, firstly, a time control corresponding to the selectable bookable time period is displayed for a supplier; secondly, after the supplier selects the corresponding reservation time period, commodity class controls corresponding to commodity classes which can be put in storage by the supplier in the selected reservation time period are displayed to the supplier; and finally, after the supplier selects the corresponding commodity class through the displayed commodity class control, displaying the warehousing quantity control corresponding to the warehousing quantity of the commodities of the commodity class selected by the supplier in the target warehouse within the selected appointment-available time period to the supplier.

As an example, as shown in fig. 4 (a), fig. 4 (a) is one of schematic user interface diagrams provided in the embodiments of the present application. The supplier a triggers a trigger event of the reserved warehousing information by clicking a reserved delivery control in a delivery application program in the supplier terminal, and displays all the reservable time in the user interface 41, in this example, three reservable time period controls 42 corresponding to time periods for which the supplier can reserve delivery to the target warehouse, which are respectively 20XX year Y month Q day 10 to 00, 20XX year Y month Q day 11 to 12 and 20XX year Y month Q day 1200 to 13, and the supplier can select a time period for commodity warehousing by touching the reservable time period control 42 corresponding to each time period; here, it should be noted that the number of the reserved time periods for reserved delivery preset in the target warehouse may be set according to actual conditions, and may be not only three, but also any number of the reserved time periods. Further, accordingly, in the case where the reservable time period is completed, information of "completed" may be displayed to prompt the supplier at the same time as the display of the reservable time period.

After the supplier selects the appointment delivery time to be 20XX year, Y month, Q day 11 00-12 through the appointment time period control, the user interface jumps to the display interface corresponding to the commodity class control, as shown in fig. 4 (b), fig. 4 (b) is a second user interface schematic diagram provided in the embodiment of the present application, commodity class controls 43 corresponding to two commodity classes are displayed in the user interface, and are respectively a frozen fresh commodity and a fruit and vegetable commodity, and the supplier can select the class of the commodity to be warehoused by touching the commodity class control 43 corresponding to each commodity class. Here, it should be noted that there may be not only two types of commodities that can be put in the target warehouse, but also any number of types that can be put in the target warehouse according to actual situations. Further, accordingly, in the case where the reservable time period is completed, information of "completed" may be displayed to prompt the supplier at the same time as the display of the reservable time period.

After the supplier selects the appointment delivery time to be 20XX year, Y month, Q day 11 00-12. Here, it should be noted that, in the embodiment of the present application, the warehousing quantity control may be presented in a manner of clicking the control, or may be presented in a manner of inputting the control, and when the warehousing quantity control is presented in a manner of inputting the control, the warehousing quantity of the target commodity may also be determined according to the number input operation of the suppliers.

Here, those skilled in the art should note that the warehousing requirement information such as the bookable time period, the commodity category, and the warehousing quantity of the commodities is not limited to be obtained by the touch reservation entry control, but may also be information input by the supplier in other embodiments, and the obtaining manner of the warehousing requirement information in the present application is not limited thereto, and the present application is not limited thereto.

In step S302, a commodity warehousing request is generated in response to the reservation entry control being operated, and the commodity warehousing request is sent to a server; the commodity warehousing request comprises an appointment-able time period and commodity warehousing quantity; the warehousing quantity of the commodities is controlled on the basis of the upper limit of the warehousing quantity of the commodities corresponding to the bookable time period; the upper limit of the number of commodities is determined based on commodity warehousing configuration data of the target warehouse in the bookable time period, wherein the commodity warehousing configuration data comprises the opening number of the platform of the target warehouse and the number of receiving personnel equipped for the opened platform.

After determining the warehousing requirement information such as the bookable time period, the commodity category and the warehousing quantity of the commodities of the supplier, the supplier terminal can generate a commodity warehousing request which can be identified by the server based on the determined warehousing requirement information so as to enable the server to judge the warehousing requirement information of the supplier, and the server can judge the warehousing requirement of the supplier. Here, the manner in which the server determines the warehousing requirement of the supplier is as described above, and is not described herein again.

It should be noted that, in the embodiment of the present application, the warehousing quantity of the commodities that the supplier can warehouse in the commodities is controlled by the upper limit of the quantity of the commodities in the target warehouse, that is, the warehousing quantity of the commodities must not exceed the upper limit of the quantity of the commodities in the bookable time period. For example, in 20XX year Y month Z day 9-00, the upper limit of the quantity of commodities which can be reserved for warehousing is 1 ten thousand, and the total quantity of the commodities which can be warehoused by all suppliers in the reservable time period cannot exceed 1 ten thousand.

In step S303, reservation feedback information generated and sent by the server based on the commodity warehousing request is received and displayed.

After receiving the reservation feedback information fed back by the server, the reservation feedback information can be displayed in a user interface provided by the supplier terminal to prompt whether the reservation of the supplier is successful. The reservation feedback information may only include prompt information of reservation success or reservation failure, and in case of reservation success, the reservation feedback information may also include a control for a supplier to check detailed reservation information. Specifically, if the operation that the supplier triggers the control is received, one or more of the warehousing reservation time period, the warehousing number, the warehousing preference platform and the like of the target commodity which is successfully reserved by the supplier can be displayed. For example, the warehousing reservation time period of the target commodity is 20XX years, Y month, Z day 9-00; the warehousing quantity of the target commodities is 200; the platform for warehousing the target commodity is preferably the platform No. 1.

If the supplier fails to reserve, the reservation feedback information may show the reason of the reservation failure, for example, the warehousing quantity of the commodities warehoused in the reservable time period selected by the supplier exceeds the warehousing quantity upper limit of the reservable time period, and at this time, the warehousing quantity upper limit of the reservable time period may be fed back to the supplier through the reservation feedback information, so that the supplier may select other reservable time to reserve the delivery. Here, it should be noted that the reason for the reservation failure may be other than the above reason, and the present application is not limited to this.

Further, in order to facilitate the supplier to select the bookable time suitable for delivery according to the remainder of the quantity of the warehoused goods in each bookable time period of the target warehouse, in one embodiment, the reservation method additionally comprises the step of displaying the quantity of the goods bookable at the bookable time to the supplier terminal (not shown in fig. 3).

Specifically, the merchandise quantity remainder of the reservable time period can be received for each reservable time period in response to a triggering event of the reservation warehousing information input by the user.

Here, the product quantity remainder is a difference between the upper limit of the product quantity in the reservable time period and the reserved product quantity in the reservable time period. The trigger event of the reservation warehousing information is as described above, and is not described herein again.

It should be noted that, because the target warehouse is used for storing different commodities sold by the shopping platform, and suppliers of different commodities are not necessarily the same, the target warehouse receives warehousing requests reserved by different suppliers, and therefore, the server can receive warehousing requests of target commodities sent by different suppliers for the same reserved time period, and for one provider, the commodity quantity remainder of the warehoused commodities reserved by the server in each reserved time period changes all the time.

In the present application, the difference between the upper limit of the warehousing quantity of the commodities with the remainder of the quantity of the commodities being the bookable time period and the quantity of the commodities booked in the bookable time period is calculated, for example, the upper limit of the warehousing quantity of the commodities in the bookable time period reserved by the supplier W is 2000 pieces in Y month R day 10-11 of 20XX year.

In order to allow the supplier to select an appropriate reservable time period according to the remainder of the number of commodities for each reservable time period, in another embodiment, the reservation method further comprises: and when the warehousing quantity control is displayed, displaying the commodity quantity remainder of the bookable time determined by the user.

For example, in response to the operation of the reservable time period control in the present application, for example, when the supplier presses the reservable time period control in the user interface, it may be considered that the supplier has applied an operation to the reservable time period control.

As shown in fig. 5, fig. 5 is a fourth schematic view of a user interface provided in the embodiment of the present application, when a supplier determines (for example, by selecting or manually inputting) a bookable time through a bookable time period control 52 displayed in the user interface 51, the supplier terminal may display a remainder 53 of the number of commodities in the bookable time period determined by the supplier in the user interface 51, so that the supplier adjusts the number of warehoused commodities according to the remainder of the number of commodities, or re-determines the bookable time.

Here, the display position of the remainder of the number of commodities may be any blank area in the user interface, that is, an area that does not block original display information in the user interface, may be displayed around the control of the bookable time period, and may also be displayed in a preset area in the user interface, which is not limited herein.

According to the commodity warehousing reservation method, the flow of warehouse commodity warehousing can be controlled by providing a reservation channel for a supplier, so that the receiving capacity of the warehouse is balanced, and the delivery timeliness of the community group purchase commodities is further ensured.

On the other hand, the complete process of warehousing goods will be described in detail with reference to fig. 6.

As an example, as shown in fig. 6, fig. 6 is a schematic diagram of a commodity warehousing process. The seafood supplier A is used as a resident supplier in the community group-buying platform and can participate in community group-buying activities organized by the community group-buying platform, namely after the seafood supplier A receives a purchase order issued by the shopping platform in the community group-buying, commodities selected and bought by a consumer in the purchase order need to be transported to a target warehouse cooperated with the shopping platform within a certain time, so that the target warehouse can transport the commodities selected and bought by the consumer to a group leader in time.

After receiving a purchase order issued by a community shopping platform, the seafood supplier A enters an appointed delivery interface of appointed delivery software through an appointed delivery application program in a touch supplier terminal; in the appointment delivery interface, firstly, a seafood supplier A selects the warehousing time of the target commodity from a plurality of appointment-able time as 20XX year, Y month, Q day 11-12 by touching and displaying a corresponding appointment-able time control in a user interface; then, the seafood supplier A selects the commodity class of the commodity to be put in storage as the ice and fresh commodity through a corresponding commodity class control displayed in a user interface through touch control; and finally, the seafood supplier A selects 200 commodity warehousing quantities of the commodities to be warehoused by touching and displaying the corresponding warehousing quantity control pieces in the user interface.

The method comprises the steps that a supplier terminal generates a commodity warehousing request of a seafood supplier A based on warehousing reservation information such as warehousing time of commodities to be warehoused selected by the seafood supplier A, 20XX year, Y month, Q day 11.

After receiving a commodity warehousing request of a seafood supplier A, a server analyzes and determines that the warehousing reservation time period of the warehousing commodities reserved by the seafood supplier A is 20XX year, Y month, Q day 11-00, and the warehousing quantity of the commodities to be warehoused is 200 pieces; meanwhile, the server acquires an upper limit of the quantity of the goods corresponding to the reservable time period of the target warehouse from 11 to 00 in Y month and Q day in 20XX year; then, the server compares 200 pieces of warehousing quantity of target commodities (for example, seafood) to be warehoused by the seafood supplier A with 150 pieces of commodity quantity remainder in a bookable time period of the target warehouse from 11 to 12 in Y month and Q day of 20 XX. The commodity quantity remainder is a difference value between the upper limit of the commodity quantity of the reservable time period and the reserved commodity quantity of the reservable time period.

The supplier terminal used by the seafood supplier A receives and displays the feedback information sent by the server, the feedback information records the related content of successful reservation and the button of the detailed reservation information, when the seafood supplier A clicks the button of the detailed reservation information, the detailed information of the reserved delivery can be displayed: reserving time period and warehousing quantity of target commodities.

Referring to fig. 7 and 8, fig. 7 is a first schematic structural diagram of a server according to an embodiment of the present disclosure, and fig. 8 is a second schematic structural diagram of a server according to an embodiment of the present disclosure. As shown in fig. 7, the server 700 includes:

a configuration data obtaining module 710, configured to obtain commodity warehousing configuration data of the target warehouse in each bookable time period; the target warehouse is used for storing commodities which are sold by a shopping platform and are conveyed by different suppliers, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; the commodity warehousing configuration data comprises the opening number of the platforms of the target warehouse and the number of the receiving personnel allocated for the opened platforms;

an upper limit determining module 720, configured to determine, for each reservable time period, an upper limit of the number of commodities that can be warehoused by the supplier in the reservation time period based on the commodity warehousing configuration data of the reservable time period;

the information analysis module 730 is used for analyzing the target commodity warehousing request sent by the supplier terminal to obtain the reservation information of target commodity warehousing; the reservation information comprises a warehousing reservation time period and a warehousing quantity of the target commodity;

the feedback module 740 is configured to generate reservation feedback information based on the upper limit of the quantity of the goods and the reservation information, and send the reservation feedback information to the supplier terminal.

Further, as shown in fig. 8, the server 700 further includes a monitoring module 750, configured to:

Further, the monitoring module 750 is configured to monitor whether the commodity warehousing configuration data of the target warehouse is changed by:

Further, the monitoring module 750 is configured to monitor whether the warehousing configuration data of the target warehouse changes by:

Further, as shown in fig. 8, the server 700 further includes a remainder determining module 760, where the remainder determining module 760 is configured to:

Further, when the feedback module 740 is configured to generate the reservation feedback information based on the upper limit of the quantity of the commodity and the reservation information, the feedback module 750 is configured to:

Further, the reservation information of the target commodity warehousing also comprises the category of the target commodity; the reservation feedback information indicating successful reservation in warehousing of the commodity also comprises a warehousing optimization platform of the target commodity which is successfully reserved;

the warehousing preference platform of the target goods is determined based on any one of the categories of the target goods, the number of the warehoused goods, and the delivery habit data of the supplier.

Further, the feedback module 740 is configured to determine the warehousing preferred platform of the target product by:

determining a platform closest to a sub-warehouse of commodities of the categories capable of storing the target commodities in the target warehouse as a warehousing optimal platform of the target commodities;

Further, the monitoring module 740 is configured to monitor the change of the warehousing configuration data of the target warehouse by:

acquiring commodity warehousing configuration data of a target warehouse in each bookable time period in real time;

and if the currently acquired commodity warehousing configuration data is different from the commodity warehousing configuration data acquired before, determining that the commodity warehousing configuration data of the bookable time period is changed.

The server provided by the embodiment of the application firstly acquires commodity warehousing configuration data of a target warehouse in each bookable time period; the target warehouse is used for storing commodities transported by different suppliers and sold by a shopping platform, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; the commodity warehousing configuration data comprises the opening number of the platforms of the target warehouse and the number of the receiving personnel allocated for the opened platforms; then, aiming at each reservable time period, determining the upper limit of the quantity of commodities which can be warehoused by the supplier in the reservation time period based on the commodity warehousing configuration data of the reservable time period; then, analyzing a target commodity warehousing request sent by a supplier terminal to obtain reservation information of target commodity warehousing; the reservation information comprises a warehousing reservation time period and a warehousing quantity of the target commodity; and finally, generating reservation feedback information based on the upper limit of the quantity of the commodities and the reservation information, and transmitting the reservation feedback information to the supplier terminal. Through the mode of this application embodiment, can provide the flow that the reservation passageway comes control warehouse commodity to put in storage for the supplier to the receiving capacity of balanced warehouse, and then guarantee the arrival time limit of community group purchase commodity.

Referring to fig. 9 and 10, fig. 9 is a first schematic structural diagram of a provider terminal according to an embodiment of the present disclosure, and fig. 10 is a second schematic structural diagram of a provider terminal according to an embodiment of the present disclosure. As shown in fig. 9, the vendor terminal 900 includes:

a control display module 910, configured to respond to a trigger event of the reservation warehousing information, and control to display a reservation entry control for reserving delivery of goods to a target warehouse in a user interface provided by the supplier terminal; the target warehouse is used for storing commodities which are sold by a shopping platform and are conveyed by different suppliers, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way;

the request sending module 920 is configured to respond to an operated instruction issued by a consumer for the reservation entry control, generate a commodity warehousing request, and send the commodity warehousing request to a server; the commodity warehousing request comprises an appointment-able time period and commodity warehousing quantity; the warehousing quantity of the commodities is controlled based on the upper limit of the warehousing quantity of the commodities which can be booked and corresponds to the bookable time period; the upper limit of the number of commodities is determined based on commodity warehousing configuration data of the target warehouse in the bookable time period, wherein the commodity warehousing configuration data comprise the opening number of the platform of the target warehouse and the number of receiving personnel allocated for the opened platform;

a feedback receiving module 930, configured to receive and display reservation feedback information generated and sent by the server based on the commodity warehousing request.

Further, the reservation entry control includes at least one of: the time period control, the warehousing quantity control and the commodity class control can be reserved.

Further, as shown in fig. 10, the provider terminal 900 further includes a remainder receiving module 940, where the remainder receiving module 940 is configured to:

responding to a triggering event of the reservation warehousing information input by the user, and receiving a commodity quantity remainder of the reservable time period aiming at each reservable time period, wherein the commodity quantity remainder is a difference value between a commodity quantity upper limit of the reservable time period and a reserved commodity quantity of the reservable time period.

Further, as shown in fig. 10, the supplier terminal 900 further includes a remainder display module 950, and the remainder display module 950 is configured to:

when the warehousing quantity control is operated, the commodity quantity remainder of the reservable time selected by the user (namely, the supplier) is displayed.

The embodiment of the application provides a supplier terminal, which first responds to a trigger event of reservation warehousing information and controls a reservation item control for reserving goods delivery to a target warehouse to be displayed in a user interface provided by the supplier terminal; the target warehouse is used for storing commodities transported by different suppliers and sold by a shopping platform, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; then responding to the operation of the reservation entry control, generating a commodity warehousing request, and sending the commodity warehousing request to a server; the commodity warehousing request comprises an appointment-able time period and commodity warehousing quantity; the warehousing quantity of the commodities is controlled based on the upper limit of the warehousing quantity of the commodities which can be booked and corresponds to the bookable time period; the upper limit of the quantity of the commodities is determined based on commodity warehousing configuration data of the target warehouse in the bookable time period, wherein the commodity warehousing configuration data comprise the opening quantity of a platform of the target warehouse and the quantity of receiving personnel allocated for the opened platform; and finally, receiving and displaying reservation feedback information generated and sent by the server based on the commodity warehousing request. Through the mode of this application embodiment, can be through providing the flow that the reservation passageway comes control warehouse commodity to put in storage for the supplier to the receiving capacity in balanced warehouse, and then guarantee the delivery time efficiency of community group purchase commodity.

TS1, a management method for commodity warehousing, which is characterized by being applied to a server, and the management method comprises the following steps:

acquiring commodity warehousing configuration data of a target warehouse in each bookable time period; the target warehouse is used for storing commodities transported by different suppliers and sold by a shopping platform, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; the commodity warehousing configuration data comprise the opening number of the platform of the target warehouse and the number of the receiving personnel allocated for the opening platform;

for each reservable time period, determining the upper limit of the quantity of commodities which can be warehoused by the supplier in the reservation time period based on the commodity warehousing configuration data of the reservable time period;

TS2, the method for managing according to claim TS1, wherein the generating reservation feedback information based on the upper limit of the number of commodities and the reservation information includes:

if so, reservation feedback information indicating that the reservation of the article failed is generated.

TS3 the management method according to claim TS2, wherein the reservation information of the target commodity warehousing further includes a category of the target commodity; the reservation feedback information indicating successful reservation in warehousing of the commodity also comprises a warehousing optimization platform of the target commodity which is successfully reserved;

TS4 and the method for managing as claimed in claim TS3, wherein the warehousing preferred platform of the target product is determined by:

TS5, the management method according to claim TS1, characterized in that it further comprises:

TS6 the management method according to claim TS5, wherein the step of monitoring whether the commodity warehousing configuration data of the target warehouse has changed is performed by:

and if the currently acquired commodity warehousing configuration data are different from the previously acquired commodity warehousing configuration data, determining that the commodity warehousing configuration data of the bookable time period change.

TS7 the management method according to claim TS5, wherein the step of monitoring whether the commodity warehousing configuration data of the target warehouse has changed is performed by:

TS8, the management method according to claim TS1, characterized in that it further comprises:

responding to a trigger event of receiving reservation warehousing information from a supplier terminal, and acquiring a commodity quantity remainder of each reservable time period, wherein the commodity quantity remainder is a difference value between a commodity quantity upper limit of the reservable time period and a reserved commodity quantity of the reservable time period;

TS9, a reservation method for commodity warehousing, which is characterized by being applied to a supplier terminal, and the reservation method comprises the following steps:

responding to a trigger event of reserved warehousing information input by a user, and controlling to display a reserved item control for reserving delivery to a target warehouse in a user interface provided by the supplier terminal; the target warehouse is used for storing commodities transported by different suppliers and sold by a shopping platform, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way;

responding to an operation instruction issued by a user aiming at the reservation entry control, generating a commodity warehousing request, and sending the commodity warehousing request to a server; the commodity warehousing request comprises an appointment-able time period and commodity warehousing quantity; the warehousing quantity of the commodities is controlled based on the upper limit of the warehousing quantity of the commodities which can be booked and corresponds to the bookable time period; the upper limit of the quantity of the commodities is determined based on commodity warehousing configuration data of the target warehouse in the bookable time period, wherein the commodity warehousing configuration data comprise the opening quantity of a platform of the target warehouse and the quantity of receiving personnel allocated for the opened platform;

TS10 the reservation method of claim TS9, wherein the reservation entry control comprises at least one of: a reserved time period control, a warehousing quantity control and a commodity class control.

TS11, the reservation method of claim TS10, characterized in that the reservation method further comprises:

TS12, the reservation method according to claim TS11, characterized in that the reservation method further comprises:

TS13, a server, characterized in that the server comprises:

the configuration data acquisition module is used for acquiring commodity warehousing configuration data of the target warehouse in each bookable time period; the target warehouse is used for storing commodities which are sold by a shopping platform and are conveyed by different suppliers, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; the commodity warehousing configuration data comprises the opening number of the platforms of the target warehouse and the number of the receiving personnel allocated for the opened platforms;

the upper limit determining module is used for determining the upper limit of the quantity of commodities which can be warehoused by the supplier in the reservation time period based on the commodity warehousing configuration data of the reservation time period aiming at each reservation time period;

TS14 the server according to claim TS13, wherein the feedback module, when configured to generate the reservation feedback information based on the upper limit of the quantity of the commodity and the reservation information, is configured to:

TS15, the server according to claim TS14, wherein the reservation information of the target commodity warehousing further includes a category of the target commodity; the reservation feedback information indicating successful reservation in warehousing of the commodity also comprises a warehousing optimization platform of the target commodity which is successfully reserved;

The TS16 and the server of claim TS15, wherein the feedback module is configured to determine the warehousing preferred platform of the target product by:

TS17, the server of claim TS13, wherein the server further comprises a monitoring module configured to:

The TS18 and the server according to claim TS17, wherein the monitoring module is configured to monitor whether the commodity warehousing configuration data of the target warehouse is changed by:

The TS19 and the server according to claim TS17, wherein the monitoring module is configured to monitor whether the commodity warehousing configuration data of the target warehouse changes by:

The server of claim TS20, wherein the server further comprises a remainder determination module configured to:

TS21, a provider terminal, characterized in that the provider terminal comprises:

the control display module is used for responding to a trigger event of reserved warehousing information input by a user and controlling to display a reserved item control for reserving goods delivery to a target warehouse in a user interface provided by the supplier terminal; the target warehouse is used for storing commodities transported by different suppliers and sold by a shopping platform, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way;

the request sending module is used for responding to an operation instruction issued by a user aiming at the reservation entry control, generating a commodity warehousing request and sending the commodity warehousing request to the server; the commodity warehousing request comprises an appointment-able time period and commodity warehousing quantity; the warehousing quantity of the commodities is controlled on the basis of the upper limit of the warehousing quantity of the commodities corresponding to the bookable time period; the upper limit of the number of commodities is determined based on commodity warehousing configuration data of the target warehouse in the bookable time period, wherein the commodity warehousing configuration data comprise the opening number of the platform of the target warehouse and the number of receiving personnel allocated for the opened platform;

and the feedback receiving module is used for receiving and displaying the reservation feedback information generated and sent by the server based on the commodity warehousing request.

TS22, the provider terminal according to claim TS21, wherein the reservation entry control comprises at least one of: a reserved time period control, a warehousing quantity control and a commodity class control.

TS23, the provider terminal of claim TS22, wherein the provider terminal further comprises a remainder receiving module, the remainder receiving module being configured to:

TS24, the provider terminal of claim TS23, wherein the provider terminal further comprises a remainder display module, the remainder display module being configured to:

TS25, an electronic device, comprising: a processor, a memory and a bus, the memory storing machine-readable instructions executable by the processor, the processor and the memory communicating over the bus when the electronic device is operating, the processor executing the machine-readable instructions to perform the steps of the method of any one of claims TS1 to TS8 or the steps of the method of any one of TS9 to TS 12.

TS26, a computer-readable storage medium, characterized in that a computer program is stored on the computer-readable storage medium, which computer program, when being executed by a processor, carries out the steps of the management method according to any one of claims TS1 to TS8 or the steps of the reservation method according to any one of TS9 to TS 12.

TS27, a computer program product comprising computer programs or instructions, characterized in that said computer programs or instructions, when executed by a processor, implement the steps of the management method of any one of claims TS1 to TS8 or the steps of the reservation method of any one of TS9 to TS 12.

Referring to fig. 11, fig. 11 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure. As shown in fig. 11, the electronic device 1100 includes a processor 1110, a memory 1120, and a bus 1130.

The memory 1120 stores machine-readable instructions executable by the processor 1110, when the electronic device 1100 runs, the processor 1110 communicates with the memory 1120 through the bus 1130, and when the machine-readable instructions are executed by the processor 1110, the steps of the method in the method embodiments shown in fig. 1 to fig. 3 may be executed.

An embodiment of the present application further provides a computer-readable storage medium, where a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the steps of the method in the method embodiment shown in fig. 1 to 3 may be executed.

It is clear to those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described systems, apparatuses and units may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a non-volatile computer-readable storage medium executable by a processor. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned 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.

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present application, and are used for illustrating the technical solutions of the present application, but not limiting the same, and the scope of the present application is not limited thereto, and although the present application is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: any person skilled in the art can modify or easily conceive the technical solutions described in the foregoing embodiments or equivalent substitutes for some technical features within the technical scope disclosed in the present application; such modifications, changes or substitutions do not depart from the spirit and scope of the embodiments of the present application and are intended to be covered by the appended claims. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. A commodity warehousing management method is applied to a server and comprises the following steps:

2. The method of claim 1, wherein the generating reservation feedback information based on the upper limit of the quantity of the goods and the reservation information comprises:

3. The management method according to claim 2, wherein the reservation information for the target commodity warehousing further includes a category of the target commodity; the reservation feedback information indicating successful reservation in warehousing of the commodity also comprises a warehousing optimization platform of the target commodity which is successfully reserved;

4. The management method according to claim 3, wherein the warehousing preferred platform of the target commodity is determined by:

5. The management method according to claim 1, wherein the management method further comprises:

6. The management method according to claim 5, wherein the target warehouse is monitored for a change in the commodity warehousing configuration data by:

7. The management method according to claim 5, wherein the target warehouse is monitored for a change in the commodity warehousing configuration data by:

8. The management method according to claim 1, wherein the management method further comprises:

9. A reservation method for commodity warehousing is applied to a supplier terminal and comprises the following steps:

10. The reservation method of claim 9, wherein the reservation entry control comprises at least one of: the time period control, the warehousing quantity control and the commodity class control can be reserved.

11. The reservation method of claim 10, further comprising:

12. The reservation method of claim 11, further comprising:

13. A server, characterized in that the server comprises:

the configuration data acquisition module is used for acquiring commodity warehousing configuration data of the target warehouse in each bookable time period; the target warehouse is used for storing commodities which are sold by a shopping platform and are conveyed by different suppliers, and the commodities stored in the target warehouse are delivered to a pre-buyer within a preset distance from the target warehouse; the pre-buyer is an organization group which distributes commodities to consumers in a centralized way after the commodities are sold by the shopping platform in a group buying way; the commodity warehousing configuration data comprise the opening number of the platform of the target warehouse and the number of the receiving personnel allocated for the opening platform;

14. The server of claim 13, wherein the feedback module, when configured to generate reservation feedback information based on the upper limit on the quantity of the item and the reservation information, is configured to:

15. The server according to claim 14, wherein the reservation information of the target commodity warehousing further includes a category of the target commodity; the reservation feedback information indicating successful reservation in warehousing of the commodity also comprises a warehousing optimization platform of the target commodity which is successfully reserved;

16. The server of claim 15, wherein the feedback module is configured to determine the warehousing preferred platform for the target good by:

17. The server of claim 13, wherein the server further comprises a monitoring module to:

18. The server according to claim 17, wherein the monitoring module is configured to monitor whether the warehousing configuration data of the target warehouse is changed by:

for each bookable time period, comparing the currently acquired commodity warehousing configuration data with the commodity warehousing configuration data acquired before;

19. The server according to claim 17, wherein the monitoring module is configured to monitor whether the warehousing configuration data of the target warehouse is changed by:

20. The server of claim 13, wherein the server further comprises a remainder determination module to:

21. A provider terminal, characterized in that the provider terminal comprises:

the request sending module is used for responding to an operation instruction issued by a user aiming at the reservation entry control, generating a commodity warehousing request and sending the commodity warehousing request to the server; the commodity warehousing request comprises an appointment-able time period and commodity warehousing quantity; the warehousing quantity of the commodities is controlled based on the upper limit of the warehousing quantity of the commodities which can be booked and corresponds to the bookable time period; the upper limit of the quantity of the commodities is determined based on commodity warehousing configuration data of the target warehouse in the bookable time period, wherein the commodity warehousing configuration data comprise the opening quantity of a platform of the target warehouse and the quantity of receiving personnel allocated for the opened platform;

22. The provider terminal of claim 21, wherein the reservation entry control comprises at least one of: the time period control, the warehousing quantity control and the commodity class control can be reserved.

23. The provider terminal of claim 22, wherein the provider terminal further comprises a remainder receiving module, the remainder receiving module being configured to:

24. The provider terminal of claim 23, wherein the provider terminal further comprises a remainder display module, the remainder display module being configured to:

25. An electronic device, comprising: a processor, a memory and a bus, the memory storing machine-readable instructions executable by the processor, the processor and the memory communicating over the bus when the electronic device is operating, the processor executing the machine-readable instructions to perform the steps of the method of any one of claims 1 to 8 or the steps of the method of any one of claims 9 to 12.

26. A computer-readable storage medium, characterized in that a computer program is stored thereon, which computer program, when being executed by a processor, performs the steps of the management method according to one of the claims 1 to 8 or the steps of the reservation method according to one of the claims 9 to 12.

27. A computer program product comprising a computer program or instructions, characterized in that the computer program or instructions, when executed by a processor, implement the steps of the management method of any one of claims 1 to 8 or the steps of the reservation method of any one of claims 9 to 12.