Dynamic distribution system and method based on online sales
Technical Field
The invention relates to the technical field of online sales, in particular to a dynamic distribution system and a dynamic distribution method based on online sales.
Background
The existing goods delivery based on-line sales generally comprises that a user fills a receiving address, and a courier delivers goods to the fixed receiving address, and the defects are that: the existing distribution system and method limit the on-line sales development of the instant retail consumer goods for the reason that the consumer needs to finish the actual delivery at the delivery address, the delivery mode needs to wait for the delivery of the goods at the delivery address for a long time, or the delivery mode needs to be taken after returning to the delivery address, and the distribution mode is basically not suitable for the instant retail consumer goods, for example, pedestrians walking on the road want to drink water, but do not have shops selling beverage goods around the pedestrian, even if the beverages can be purchased on line, the beverages can only be distributed to the fixed delivery address, and the purchased goods cannot be obtained in the walking process.
Disclosure of Invention
The technical problem to be solved by the invention is to overcome the defects in the prior art and provide a dynamic distribution system and a dynamic distribution method based on-line sales, which can improve the distribution efficiency of the instant retail consumer goods and promote the on-line sales of the instant retail consumer goods.
In order to solve the technical problems, the invention adopts the following technical scheme:
a dynamic distribution system based on online sales, comprising: a warehouse network, a cloud server and a delivery terminal,
the warehouse network comprises a plurality of scattered warehouses;
the cloud server comprises an information acquisition module, an inventory database and a task release module,
the information acquisition module is used for acquiring the operation mode information and the position information of the distribution terminal and the order information issued by the user on line, the order information comprises the moving path information after the user places an order, the stock database stores and updates the commodity stock information of each warehouse, the task issuing module is used for issuing the order information to the distribution terminal,
the distribution terminal has two operation modes of a waiting state and a distribution state, and is used for receiving the order information issued by the task issuing module in the waiting state and switching to the distribution state after receiving the order information; in the distribution state, the user position information is updated in real time,
and the task issuing module sends order information to the distribution terminal in a waiting state.
As a further improvement of the above technical solution:
the cloud server further comprises a path planning module, wherein the path planning module calculates the shortest distribution path used for time according to the commodity stock information, the warehouse position, the distribution terminal position information and the movement path information after ordering by the user, and sends the distribution path to the distribution terminal.
The delivery paths include a pick path for moving picks to the warehouse and a delivery path for moving deliveries to the user.
The warehouse includes vending machines and/or front warehouses.
A dynamic distribution method based on the distribution system comprises the following steps:
s1: acquiring information: when a user places an order through the mobile terminal, the information acquisition module of the cloud server acquires order information, and meanwhile, the information acquisition module acquires operation mode information and position information of the distribution terminal in real time;
s2: releasing order information: the task issuing module issues order information to a distribution terminal;
s3: order receiving: after checking order information, a holder of the distribution terminal receives a selected order and the distribution terminal is switched to a distribution state;
s4: taking goods: a distribution terminal holder selects a warehouse and extracts commodities;
s5: and (4) distribution: and the distribution terminal holder sends the commodity to the user according to the user position information updated in real time, and the distribution terminal is switched to a waiting state.
As a further improvement of the above technical solution:
when the step S3 is executed, the path planning module calculates the shortest distribution path to be used according to the commodity inventory information, the warehouse location, the distribution terminal location information, and the movement path information after the order placement by the user, and sends the distribution path to the distribution terminal.
In executing step S4, the delivery terminal holder selects a warehouse according to the delivery route and extracts the commodity.
In step S5, the delivery terminal holder delivers the commodity to the user based on the delivery route and the user position information updated in real time.
Compared with the prior art, the invention has the advantages that:
according to the dynamic distribution system based on online sales, commodities can be distributed to the moving users through the warehouse network, the cloud server and the distribution terminals, the users can provide the information of the moving paths after ordering when ordering online, distribution personnel can hold the distribution terminals to obtain the user position information updated in real time, and the commodities are delivered to the users according to the information, and the consumers do not need to wait for the delivery of the commodities at the fixed delivery addresses for a long time. The dynamic distribution method based on the dynamic distribution system has corresponding technical effects with the dynamic distribution system based on online sales, and is not described herein again.
Drawings
Fig. 1 is a schematic structural diagram of a dynamic distribution system based on online sales according to the present invention.
Fig. 2 is a flow chart of the dynamic distribution method based on online sales according to the present invention.
Illustration of the drawings:
1. a warehouse network; 100. a warehouse; 2. a cloud server; 200. an information acquisition module; 210. an inventory database; 220. a task issuing module; 230. a path planning module; 3. a distribution terminal; 4. a mobile terminal.
Detailed Description
The invention is described in further detail below with reference to the figures and specific examples.
As shown in fig. 1, the dynamic distribution system based on online sales of the present embodiment includes a warehouse network 1, a cloud server 2, and a distribution terminal 3, where the warehouse network 1 includes a plurality of warehouses 100 distributed in a distributed manner; the cloud server 2 comprises an information acquisition module 200, an inventory database 210 and a task release module 220, wherein the information acquisition module 200 is used for acquiring operation mode information and position information of the distribution terminal 3 and order information released by a user on line, the order information comprises moving path information after the user places an order, the inventory database 210 stores and updates commodity stock information of each warehouse 100, and the task release module 220 is used for releasing the order information to the distribution terminal 3; the distribution terminal 3 has two operation modes, namely a waiting state and a distribution state, and is used for receiving the order information distributed by the task distribution module 220 in the waiting state, switching to the distribution state after receiving the order information, and updating the user position information in real time in the distribution state; the task issuing module 220 transmits order information to the delivery terminal 3 in the waiting state. According to the dynamic distribution system based on online sales, commodities can be distributed to the moving users through the warehouse network 1, the cloud server 2 and the distribution terminals 3, when the users place orders online, the mobile path information after placing the orders is provided, distribution personnel can hold the distribution terminals 3 to obtain user position information updated in real time, and send the commodities to the users according to the information, and for the consumers, the users do not need to wait for the delivery of the commodities for a long time at a fixed goods receiving address.
In this embodiment, the cloud server 2 further includes a path planning module 230, and the path planning module 230 calculates a shortest delivery path used for the calculation according to the commodity stock information, the position of the warehouse 100, the position information of the delivery terminal 3, and the movement path information after ordering by the user, and sends the delivery path to the delivery terminal 3; the delivery paths include a pick path for moving picks to the warehouse 100 and a delivery path for moving deliveries to the user. The delivery path and the delivery path planned by the path planning module 230 can improve the delivery speed and effectively ensure the delivery accuracy, reduce the consumption of delivery work, and further improve the delivery efficiency.
In this embodiment, the warehouse 100 includes a vending machine and a front warehouse, and in other embodiments, the warehouse 100 may be configured as a vending machine entirely or as a front warehouse entirely.
In an embodiment of the dynamic distribution method based on the distribution system, a flow of the embodiment is shown in fig. 2, and the method includes the following steps:
s1: acquiring information: when a user places an order through the mobile terminal 4, the information acquisition module 200 of the cloud server 2 acquires order information, and meanwhile, the information acquisition module 200 acquires operation mode information and position information of the distribution terminal 3 in real time;
s2: releasing order information: the task issuing module 220 issues order information to the distribution terminal 3;
s3: order receiving: after checking the order information, the holder of the distribution terminal 3 receives the selected order, and the distribution terminal 3 is switched to a distribution state;
s4: taking goods: the delivery terminal 3 holder selects the warehouse 100 and extracts the goods;
s5: and (4) distribution: the delivery terminal 3 holder delivers the commodity to the user according to the user position information updated in real time, and the delivery terminal 3 is switched to a waiting state.
In this embodiment, when step S3 is executed, the path planning module 230 calculates the shortest delivery path to be used according to the commodity inventory information, the position of the warehouse 100, the position information of the delivery terminal 3, and the movement path information after ordering by the user, and sends the delivery path to the delivery terminal 3; when step S4 is executed, the delivery terminal 3 holder selects the warehouse 100 according to the delivery route and extracts the commodity; in executing step S5, the delivery terminal 3 holder delivers the product to the user based on the delivery route and the user position information updated in real time.
When a user orders and purchases a certain commodity through the mobile terminal 4 based on an online sales mall in the process of proceeding, the information acquisition module 200 of the cloud server 2 acquires order information, and meanwhile, the information acquisition module 200 acquires running mode information and position information of the distribution terminal 3 in real time, selects the distribution terminal 3 which is in a waiting state and is close to the mobile terminal 4, and sends the order information to the selected distribution terminal 3 through the task issuing module 220; when a holder of the distribution terminal 3 receives an order, the distribution terminal 3 is switched to a distribution state; the path planning module 230 calculates the shortest delivery path to be used according to the commodity inventory information, the position of the warehouse 100, the position information of the delivery terminal 3 and the movement path information after ordering by the user, and sends the delivery path to the delivery terminal 3; the delivery terminal 3 holder selects the warehouse 100 according to the delivery route and extracts the commodity, and delivers the commodity to the user according to the delivery route and the user position information updated in real time.
The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-described embodiments. Modifications and variations that may occur to those skilled in the art without departing from the spirit and scope of the invention are to be considered as within the scope of the invention.