CN112150068B - Operation distribution system for overseas warehouse value-added service - Google Patents

Abstract

The invention provides an operation distribution method of overseas warehouse value-added service, comprising the following steps: s1: counting the customer orders; s2: sequentially carrying out shipment preparation according to the order delivery date of the order pool, and sequentially sending the delivery order to the transportation management system according to the delivery date; s3: the transportation management system receives a delivery order of the storage module, and delivery information of the delivery order comprises a delivery address, target goods to be delivered and the quantity of the target goods to be delivered; s4: and inquiring whether a single warehouse meeting the delivery requirement exists according to the delivery information in the delivery request, if the single warehouse meeting the delivery requirement exists, inquiring the number of the single warehouses meeting the delivery requirement and positioning the addresses of the single warehouses, inquiring the delivery address and the addresses of the various warehouses meeting the delivery requirement, selecting the warehouse meeting the delivery requirement according to the closest principle, and delivering goods from the warehouse to the delivery address, thereby ensuring that the time for a client to receive the target goods is shortest.

Description

Operation distribution system for overseas warehouse value-added service

Technical Field

The invention relates to the technical field of overseas warehouse proliferation services, in particular to an operation distribution system of the overseas warehouse proliferation services.

Background

The delivery side of the logistics distribution in the traditional mode cannot share the logistics information and cannot monitor in real time, so that the problems that the logistics system is low in efficiency and transported goods are damaged and cannot be traced are caused. And traditional logistics can not carry out the control of transportation equipment in real time, and can not guarantee the harm of illegal personnel to the target goods, and above all, the logistics speed is slow for customer waiting time process, especially overseas warehouse logistics distribution time is slow, can not satisfy customer's demand.

Disclosure of Invention

In order to solve the technical problems in the prior art, the system of the invention provides an operation distribution system and method for overseas warehouse value-added service, thereby realizing the positioning and real-time monitoring of transportation equipment, sending target goods to a delivery address in the shortest time and meeting the speed requirement of customers.

The specific technical scheme is as follows: in one aspect, the invention provides an operation distribution system for overseas warehouse value-added service, which comprises an overseas warehouse order module, an overseas warehouse storage module, an overseas warehouse purchasing module, an overseas warehouse transportation management system and a distribution system;

the overseas warehouse ordering module is used for counting customer orders of the overseas warehouse and sequentially placing the orders into an ordering pool of the overseas warehouse module, and the orders in the ordering pool are sequentially ordered according to delivery dates;

the overseas warehouse storage module is used for recording the position of a warehouse, information of goods and an area for placing the information of the goods; the information of the goods comprises manufacturers of the goods, names of the goods, the quantity of the goods and production dates of the goods, the goods are sequentially delivered according to the order delivery dates of the order pool, and delivery orders are sequentially sent to the overseas warehouse transportation management system according to the delivery date;

the overseas warehouse transportation management system is used for receiving a delivery order of the storage module, and delivery information of the delivery order comprises a delivery address, target goods to be delivered and the quantity of the target goods to be delivered;

the distribution system inquires whether a single warehouse meeting the distribution requirement exists according to distribution information in the distribution request, if the single warehouse meeting the distribution requirement exists, the number of the single warehouses meeting the distribution requirement is inquired and the address of the single warehouse is located, if the number of the single warehouses meeting the distribution requirement is larger than 1, then the distribution address and the address of each warehouse meeting the distribution requirement are inquired, the closest warehouse meeting the distribution requirement is selected as warehouse delivery according to the closest principle, and the transportation equipment under the warehouse is informed to distribute the target goods to the distribution address; if the quantity is equal to 1, setting the warehouse as a delivery warehouse, and informing the transportation equipment under the warehouse to carry out transportation;

if no single warehouse meeting the distribution requirement exists, sending out early warning to an overseas warehouse purchasing module and sending distribution information;

the overseas warehouse purchasing module comprises a judging module, the judging module selects a distribution mode according to the principle that the predicted distribution time is shortest, the distribution mode comprises a distribution mode from a delivery side to a warehouse-distribution address and a distribution mode from each warehouse to a starting warehouse and then to the starting warehouse, wherein the target goods meeting the distribution requirements are collected together, and the starting warehouse is a warehouse which is close to the distribution address in a stock warehouse.

The overseas warehouse transportation management system comprises a monitoring center, wherein the monitoring center is used for receiving a delivery order of a warehouse-out module of the overseas warehouse module and delivering transportation equipment to transport goods according to the delivery order.

Preferably, the overseas warehouse transportation management system further comprises a plurality of transportation devices, each warehouse is provided with a plurality of transportation devices, and each transportation device comprises an intelligent lock module, a monitoring module and a camera module; the intelligent lock module is used for locking and processing goods after the goods loading of the transportation equipment is completed, the monitoring module is used for monitoring and acquiring the state of the intelligent lock, judging the on-off state of the intelligent lock if the intelligent lock acts, starting the camera module according to the on-off state, and enabling the camera module to shoot videos or photos and send the videos or the photos to the monitoring center.

Preferably, the transportation device is provided with a UWB module, and the UWB module is used to enable the transportation device to serve as a positioning tag for positioning the UWB module, so that the monitoring center can monitor the position of the transportation device in real time.

Preferably, the overseas warehouse purchasing module further comprises a calculation module, wherein the calculation module is used for calculating the predicted delivery time T1 of the delivery mode from the delivery party to the warehouse to the delivery address and calculating the predicted shortest time T2 of the delivery mode from the warehouse to the delivery address after the target goods meeting the delivery requirements are collected from the warehouses to the starting warehouse.

On the other hand, the invention provides an operation distribution method of the overseas warehouse value-added service, which comprises the following steps:

s1: counting orders of overseas warehouse customers, and sequentially placing the orders into an order pool of the overseas warehouse module, wherein the orders in the order pool are sequentially ordered according to delivery dates;

s2: sequentially carrying out shipment preparation according to the order delivery date of the order pool, and sequentially sending the delivery order to the overseas warehouse transportation management system according to the delivery date;

s3: the overseas warehouse transportation management system receives a delivery order of the storage module, and delivery information of the delivery order comprises a delivery address, target goods to be delivered and the quantity of the target goods to be delivered;

s4: the distribution system inquires whether a single warehouse meeting the distribution requirement exists according to distribution information in the distribution request, if the single warehouse meeting the distribution requirement exists, the number of the single warehouses meeting the distribution requirement is inquired, the address of the single warehouse is located, if the number of the single warehouses meeting the distribution requirement is larger than 1, then the distribution address and the address of each warehouse meeting the distribution requirement are inquired, the closest warehouse meeting the distribution requirement is selected as warehouse delivery according to the closest principle, and the transportation equipment under the warehouse is informed to distribute the target goods to the distribution address; if the quantity is equal to 1, setting the warehouse as a delivery warehouse, and informing the transportation equipment under the warehouse to carry out transportation;

if no single warehouse meeting the distribution requirement exists, an early warning is sent to an overseas warehouse purchasing module, distribution information is sent, the overseas warehouse purchasing module comprises a judging module, the judging module is used for selecting a distribution mode according to the shortest time principle according to the distribution information estimated distribution time, the distribution mode comprises a distribution mode from a delivery side-warehouse-distribution address and a distribution mode from each warehouse to a starting warehouse, target goods meeting the distribution requirement are collected together, and then the distribution mode from the starting warehouse to the distribution address is selected, wherein the starting warehouse is a warehouse which is close to the distribution address in the stock warehouse.

Preferably, the overseas warehouse purchasing module further comprises a calculation module, wherein the calculation module is used for calculating the predicted delivery time T1 of the delivery mode from the delivery party to the warehouse to the delivery address and calculating the predicted shortest time T2 of the delivery mode from the warehouse to the delivery address after the target goods meeting the delivery requirements are collected from the warehouses to the starting warehouse.

Preferably, the sizes of T1 and T2 are compared, if T1> T2, then the overseas warehouse purchasing module is selected to place an order in time, and the order is delivered from a delivery side-warehouse-delivery side,

if T1< T2, the overseas warehouse transportation management system collects the target goods meeting the distribution demand to the starting warehouse and distributes the goods from the starting warehouse to the distribution address.

Preferably, the step of calculating the expected shortest delivery time T1 from the delivery mode of the sender-warehouse-delivery address specifically comprises the following steps:

s11: calculating the time t1, t2 and t3... tn from the shipper to each warehouse, wherein n is the number of the warehouses;

s12: calculating the time t1', t2', t3' required for each warehouse to reach the delivery address;

s13: adding the time from the shipper to each warehouse to the time required from each warehouse to the delivery address; thus, T ═ T1+ T1', T2+ T2', T3+ T3', and.. tn + tn' are obtained, and the shortest delivery time T1 in the T set is obtained.

Preferably, the step of collecting target goods satisfying the distribution demand from the warehouses to the starting warehouse, and then collecting the predicted shortest time T2 of the distribution mode from the starting warehouse to the distribution address specifically includes the following steps:

s101: the overseas warehouse purchasing module inquires the quantity of the delivered target goods in each warehouse and sorts the quantity of the stored target goods of each warehouse from high to low;

s102: judging whether target goods meeting the distribution requirements can be collected by only two warehouses, and if not, selecting a mode of distribution from a delivery side, the warehouses and a distribution place; if the goods are met, recording all warehouse collocation modes of the target goods which can meet the distribution requirement only by two warehouses, taking one warehouse which is close to the distribution address of the two warehouses in each collocation mode as a starting warehouse, and taking the other warehouse as a stock warehouse, wherein the time ta1, ta2 and ta3.. tak required by all the warehouse collocation modes for collecting the target goods which meet the distribution requirement from the stock warehouse to the starting warehouse is calculated, and k is the number of the collocation modes of the warehouses which can collect the target goods which meet the distribution requirement only by the two warehouses;

s103: calculating the time ta1', ta2', t3'. tak' required by each starting warehouse to the distribution address under all warehouse collocation modes;

s104: the time required by target goods which meet the distribution requirements and are assembled by all warehouse collocation modes from a stock warehouse to an initial warehouse is added with the time required by the target goods from each initial warehouse to a distribution address, and then T0 is obtained [ ta1+ ta1', ta2+ ta2', ta3+ ta3',. tak + tak' ], and the shortest distribution time T2 in the T0 set is obtained.

Preferably, the method for querying whether there is a single warehouse meeting the delivery demand according to the delivery information in the delivery request in step S4 is specifically: the warehouse quantity of the storage and distribution target goods is inquired from the warehouse information of the plurality of warehouses, whether the quantity of the storage and distribution target goods of each warehouse is more than the quantity of the required distribution target goods is judged, if the quantity of the storage and distribution target goods of the warehouse is more than the quantity of the required distribution target goods, the warehouse is a single warehouse meeting the distribution requirement, and if not, the single warehouse does not meet the distribution requirement.

The overseas warehouse transportation management system comprises a monitoring center, wherein the monitoring center is used for receiving a delivery order of a warehouse-out module of the overseas warehouse module and delivering transportation equipment to transport goods according to the delivery order.

Preferably, the overseas warehouse transportation management system further comprises a plurality of transportation devices, each warehouse is provided with a plurality of transportation devices, and each transportation device comprises an intelligent lock module, a monitoring module and a camera module; the intelligent lock module is used for locking and processing goods after the goods loading of the transportation equipment is completed, the monitoring module is used for monitoring and acquiring the state of the intelligent lock, judging the on-off state of the intelligent lock if the intelligent lock acts, starting the camera module according to the on-off state, and enabling the camera module to shoot videos or photos and send the videos or the photos to the monitoring center.

Preferably, the transportation device is provided with a UWB module, and the UWB module is used to enable the transportation device to serve as a positioning tag for positioning the UWB module, so that the monitoring center can monitor the position of the transportation device in real time.

Compared with the prior art, the invention has the following beneficial effects:

the logistics transportation system for the overseas warehouse provided by the invention comprises the intelligent lock module, the monitoring module and the camera module, so that the safety and reliability of target goods in the transportation process can be ensured, if someone unlocks, the camera function of the camera module can be triggered, a control center can monitor unlocking personnel in a video mode, and further, the damage of illegal personnel to the target goods can be monitored.

The operation distribution system and the method for the overseas warehouse value-added service can ensure that the target goods are sent to the delivery address in the shortest time, and meet the requirements of customers to a greater extent.

Drawings

FIG. 1 is a diagram of a job distribution framework for overseas value-added services provided by the present invention;

FIG. 2 is a flow chart of a method for distributing operations of the overseas value-added service provided by the present invention;

FIG. 3 is a flowchart of a method for calculating the shortest delivery time T1 according to the present invention;

FIG. 4 is a flowchart of a method for calculating the shortest delivery time T2 according to the present invention;

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings.

As shown in fig. 1, the specific technical solution is as follows: in one aspect, the invention provides an operation distribution system for overseas warehouse value-added service, which comprises an overseas warehouse order module, an overseas warehouse storage module, an overseas warehouse purchasing module, an overseas warehouse transportation management system and a distribution system;

the overseas warehouse ordering module is used for counting customer orders of the overseas warehouse and sequentially placing the orders into an ordering pool of the overseas warehouse module, and the orders in the ordering pool are sequentially ordered according to delivery dates;

the overseas warehouse storage module is used for recording the position of a warehouse, information of goods and an area for placing the information of the goods; the information of the goods comprises manufacturers of the goods, names of the goods, the quantity of the goods and production dates of the goods, the goods are sequentially delivered according to the order delivery dates of the order pool, and delivery orders are sequentially sent to the overseas warehouse transportation management system according to the delivery date;

the overseas warehouse transportation management system is used for receiving a delivery order of the storage module, and delivery information of the delivery order comprises a delivery address, target goods to be delivered and the quantity of the target goods to be delivered;

the distribution system is used for inquiring whether a single warehouse meeting the distribution requirement exists according to distribution information in the distribution request, if the single warehouse meeting the distribution requirement exists, inquiring the number of the single warehouses meeting the distribution requirement and positioning the addresses of the single warehouses, if the number of the single warehouses meeting the distribution requirement is larger than 1, then inquiring the distribution addresses and the addresses of the warehouses meeting the distribution requirement, selecting the closest warehouse meeting the distribution requirement as warehouse delivery according to the closest principle, and informing the transportation equipment under the warehouse to distribute the target goods to the distribution addresses; if the quantity is equal to 1, setting the warehouse as a delivery warehouse, and informing the transportation equipment under the warehouse to carry out transportation;

if no single warehouse meeting the distribution requirement exists, sending out early warning to an overseas warehouse purchasing module and sending distribution information;

the overseas warehouse purchasing module comprises a judging module, the judging module selects a distribution mode according to the principle that the predicted distribution time is shortest, the distribution mode comprises a distribution mode from a delivery side-warehouse-distribution address and a distribution mode from each warehouse to a starting warehouse and then from the starting warehouse-distribution address, wherein the starting warehouse is a warehouse which is close to the distribution address in a stock warehouse.

The overseas warehouse transportation management system comprises a monitoring center, wherein the monitoring center is used for receiving a delivery order of a warehouse-out module of the overseas warehouse module and delivering transportation equipment to transport goods according to the delivery order.

As a preferred embodiment, the overseas warehouse transportation management system provided by the invention further comprises a plurality of transportation devices, wherein each warehouse is provided with a plurality of transportation devices, and each transportation device comprises an intelligent lock module, a monitoring module and a camera module; the intelligent lock module is used for locking and processing goods after the goods loading of the transportation equipment is completed, the monitoring module is used for monitoring and acquiring the state of the intelligent lock, judging the on-off state of the intelligent lock if the intelligent lock acts, starting the camera module according to the on-off state, and enabling the camera module to shoot videos or photos and send the videos or the photos to the monitoring center.

As a preferred embodiment, the transportation device provided by the present invention is provided with a UWB module, and the UWB module is used to enable the transportation device to serve as a positioning tag for positioning the UWB module, so that a monitoring center can monitor the position of the transportation device in real time.

In a preferred embodiment, the overseas warehouse purchasing module further includes a calculation module, and the calculation module is configured to calculate predicted delivery time T1 from a delivery method of a delivery party, a warehouse, and a delivery address, and calculate predicted shortest time T2 from a delivery method of a departure warehouse, a delivery address, and a target item that meets delivery requirements from each warehouse to the departure warehouse.

As shown in fig. 2 to 4, in another aspect, the present invention provides a method for allocating operations of a value-added service in an overseas warehouse, comprising the following steps:

s1: counting orders of overseas warehouse customers, and sequentially placing the orders into an order pool of the overseas warehouse module, wherein the orders in the order pool are sequentially ordered according to delivery dates;

s2: sequentially carrying out shipment preparation according to the order delivery date of the order pool, and sequentially sending the delivery order to the overseas warehouse transportation management system according to the delivery date;

s3: the overseas warehouse transportation management system receives a delivery order of the storage module, and delivery information of the delivery order comprises a delivery address, target goods to be delivered and the quantity of the target goods to be delivered;

s4: inquiring whether a single warehouse meeting the distribution requirement exists according to distribution information in the distribution request, if so, inquiring the number of the single warehouses meeting the distribution requirement and positioning the addresses of the single warehouses, if the number is larger than 1, then inquiring the distribution addresses and the addresses of the warehouses meeting the distribution requirement, selecting the closest warehouse meeting the distribution requirement as warehouse delivery according to the closest principle, and informing the transportation equipment under the warehouse to distribute the target goods to the distribution addresses; if the quantity is equal to 1, setting the warehouse as a delivery warehouse, and informing the transportation equipment under the warehouse to carry out transportation;

if no single warehouse meeting the distribution requirement exists, an early warning is sent to an overseas warehouse purchasing module, distribution information is sent, the overseas warehouse purchasing module comprises a judging module, the judging module selects a distribution mode according to the principle that the predicted distribution time is shortest, the distribution mode comprises a distribution mode from a delivery side-warehouse-distribution address and a distribution mode from each warehouse to a starting warehouse, target goods meeting the distribution requirement are collected together, and then the distribution mode from the starting warehouse-distribution address is adopted, wherein the starting warehouse is a warehouse which is close to the distribution address in the stock warehouse.

In a preferred embodiment, the overseas warehouse purchasing module further includes a calculation module, and the calculation module is configured to calculate predicted delivery time T1 from a delivery method of a delivery party, a warehouse, and a delivery address, and calculate predicted shortest time T2 from a delivery method of a departure warehouse, a delivery address, and a target item that meets delivery requirements from each warehouse to the departure warehouse.

In a preferred embodiment, the invention compares the sizes of T1 and T2, if T1> T2, then the overseas warehouse purchasing module is selected to place an order in time and deliver the order from a delivery side-warehouse-delivery place,

if T1< T2, the overseas warehouse transportation management system collects the target goods meeting the distribution demand to the starting warehouse and distributes the goods from the starting warehouse to the distribution address.

As a preferred embodiment, the method for calculating the expected shortest delivery time T1 from the delivery mode of the shipper-warehouse-delivery address provided by the present invention specifically includes the following steps:

s11: calculating the time t1, t2 and t3... tn from the shipper to each warehouse, wherein n is the number of the warehouses;

s12: calculating the time t1', t2', t3' required for each warehouse to reach the delivery address;

s13: adding the time from the shipper to each warehouse to the time required from each warehouse to the delivery address; thus, T ═ T1+ T1', T2+ T2', T3+ T3', and.. tn + tn' are obtained, and the shortest delivery time T1 in the T set is obtained.

Preferably, the step of collecting target goods satisfying the distribution demand from the warehouses to the starting warehouse, and then collecting the predicted shortest time T2 of the distribution mode from the starting warehouse to the distribution address specifically includes the following steps:

s101: the overseas warehouse purchasing module inquires the quantity of the delivered target goods in each warehouse and sorts the quantity of the stored target goods of each warehouse from high to low;

s102: judging whether target goods meeting the distribution requirements can be collected by only two warehouses, and if not, selecting a mode of distribution from a delivery side, the warehouses and a distribution place; if the goods are met, recording all warehouse collocation modes of the target goods which can meet the distribution requirement only by two warehouses, taking one warehouse which is close to the distribution address of the two warehouses in each collocation mode as a starting warehouse, and taking the other warehouse as a stock warehouse, wherein the time ta1, ta2 and ta3.. tak required by all the warehouse collocation modes for collecting the target goods which meet the distribution requirement from the stock warehouse to the starting warehouse is calculated, and k is the number of the collocation modes of the warehouses which can collect the target goods which meet the distribution requirement only by the two warehouses; more preferably, all warehouse collocation manners that collect target goods satisfying the delivery demand collectively may be recorded without limiting the number of warehouses, but the delivery manners are complicated. And thus can be selected as desired.

S103: calculating the time ta1', ta2', t3'. tak' required by each starting warehouse to the distribution address under all warehouse collocation modes;

s104: the time required by target goods which meet the distribution requirements and are assembled by all warehouse collocation modes from a stock warehouse to an initial warehouse is added with the time required by the target goods from each initial warehouse to a distribution address, and then T0 is obtained [ ta1+ ta1', ta2+ ta2', ta3+ ta3',. tak + tak' ], and the shortest distribution time T2 in the T0 set is obtained.

As a preferred embodiment, the method for querying whether there is a single warehouse meeting the delivery demand according to the delivery information in the delivery request in step S4 provided by the present invention specifically includes: the warehouse quantity of the storage and distribution target goods is inquired from the warehouse information of the plurality of warehouses, whether the quantity of the storage and distribution target goods of each warehouse is more than the quantity of the required distribution target goods is judged, if the quantity of the storage and distribution target goods of the warehouse is more than the quantity of the required distribution target goods, the warehouse is a single warehouse meeting the distribution requirement, and if not, the single warehouse does not meet the distribution requirement.

The overseas warehouse transportation management system comprises a monitoring center, wherein the monitoring center is used for receiving a delivery order of a warehouse-out module of the overseas warehouse module and delivering transportation equipment to transport goods according to the delivery order.

As a preferred embodiment, the overseas warehouse transportation management system provided by the invention further comprises a plurality of transportation devices, wherein each warehouse is provided with a plurality of transportation devices, and each transportation device comprises an intelligent lock module, a monitoring module and a camera module; the intelligent lock module is used for locking and processing goods after the goods loading of the transportation equipment is completed, the monitoring module is used for monitoring and acquiring the state of the intelligent lock, judging the on-off state of the intelligent lock if the intelligent lock acts, starting the camera module according to the on-off state, and enabling the camera module to shoot videos or photos and send the videos or the photos to the monitoring center.

As a preferred embodiment, the present invention provides that the transportation device is provided with a UWB module, and the UWB module is configured to enable the transportation device to serve as a positioning tag for positioning the UWB module, so that the monitoring center can monitor the position of the transportation device in real time.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (5)

1. An operation distribution system of the value-added service of the overseas warehouse is characterized by comprising an overseas warehouse order module, an overseas warehouse storage module, an overseas warehouse purchasing module, an overseas warehouse transportation management system and a distribution system;

the overseas warehouse ordering module is used for counting customer orders of the overseas warehouse and sequentially placing the orders into an ordering pool of the overseas warehouse module, and the orders in the ordering pool are sequentially ordered according to delivery dates;

the overseas warehouse storage module is used for recording the position of a warehouse, information of goods and an area for placing the information of the goods; the information of the goods comprises manufacturers of the goods, names of the goods, the quantity of the goods and production dates of the goods, the goods are sequentially delivered according to the order delivery dates of the order pool, and delivery orders are sequentially sent to the overseas warehouse transportation management system according to the delivery date;

the overseas warehouse transportation management system is used for receiving a delivery order of the storage module, and delivery information of the delivery order comprises a delivery address, target goods to be delivered and the quantity of the target goods to be delivered;

the distribution system inquires whether a single warehouse meeting the distribution requirement exists according to distribution information in the distribution order, if the single warehouse meeting the distribution requirement exists, the number of the single warehouse meeting the distribution requirement is inquired and the address of the single warehouse is located, if the number of the single warehouse meeting the distribution requirement is larger than 1, then the distribution address and the address of each warehouse meeting the distribution requirement are inquired, the closest warehouse meeting the distribution requirement is selected as a delivery warehouse according to the closest principle, and the transportation equipment under the warehouse is informed to distribute the target goods to the distribution address; if the quantity is equal to 1, setting the warehouse as a delivery warehouse, and informing the transportation equipment under the warehouse to carry out transportation;

if no single warehouse meeting the distribution requirement exists, sending out early warning to an overseas warehouse purchasing module and sending distribution information;

the overseas warehouse purchasing module comprises a judging module, the judging module selects a distribution mode according to the principle of the shortest estimated distribution time, and the distribution mode comprises a distribution mode from a delivery side-warehouse-distribution address and a distribution mode from each warehouse to a starting warehouse and then from the starting warehouse-distribution address, wherein target goods meeting the distribution requirements are collected;

the overseas warehouse purchasing module further comprises a calculating module, wherein the calculating module is used for calculating the predicted shortest delivery time T1 from the delivery mode of a delivery party, a warehouse and a delivery address and calculating the predicted shortest delivery time T2 from the delivery mode of the delivery party, the warehouse and the delivery address to the starting warehouse after target goods meeting delivery requirements are collected from all the warehouses;

the calculation of the predicted shortest delivery time T1 from the delivery mode of the delivery party, the warehouse and the delivery address specifically comprises the following steps:

s11: calculating the time t1, t2 and t3 from the shipper to each warehouse, wherein n is the number of warehouses;

s12: calculating the time t1', t2', t3' required for each warehouse to reach the delivery address;

s13: adding the time from the shipper to each warehouse to the time required from each warehouse to the delivery address; namely, T = [ T1+ T1', T2+ T2', T3+ T3',. tn + tn' ]isobtained, and the predicted shortest delivery time T1 in the T set is obtained;

the calculation of the predicted shortest delivery time T2 of the delivery mode of collecting the target goods satisfying the delivery demand from each warehouse to the starting warehouse and then from the starting warehouse to the delivery address specifically comprises the following steps:

s101: the overseas warehouse purchasing module inquires the quantity of the delivered target goods in each warehouse and sorts the quantity of the stored target goods of each warehouse from high to low;

s102: judging whether target goods meeting the distribution requirements can be collected by only two warehouses, and if not, selecting a mode of distribution from a delivery side, the warehouses and a distribution place; if the goods are met, recording all warehouse collocation modes of the target goods which can meet the distribution requirement only by two warehouses, taking one warehouse which is close to the distribution address of the two warehouses in each collocation mode as a starting warehouse, taking the other warehouse as a stock warehouse, and calculating the time ta1, ta2 and ta3.. tak required by all the warehouse collocation modes for collecting the target goods which meet the distribution requirement from the stock warehouse to the starting warehouse, wherein k is the number of the collocation modes of the warehouses which can collect the target goods which meet the distribution requirement only by the two warehouses;

s103: calculating the time ta1', ta2', ta3'. tak' required by each starting warehouse to the distribution address under all warehouse collocation modes;

s104: adding the time required by target goods which meet the distribution requirements and are assembled by all warehouse collocation modes from a stock warehouse to an initial warehouse and the time required by target goods which meet the distribution requirements and from each initial warehouse to a distribution address to obtain T0= [ ta1+ ta1', ta2+ ta2', ta3+ ta3',. tak + tak' ], and obtaining the predicted shortest distribution time T2 in a T0 set;

comparing the sizes of T1 and T2, if T1> T2, selecting the overseas warehouse purchasing module to place orders in time, delivering the orders from a delivery side-warehouse-delivery place,

if T1< T2, the overseas warehouse transportation management system collects the target goods meeting the distribution demand to the starting warehouse and distributes the goods from the starting warehouse to the distribution address.

2. The operation distribution system of the overseas warehouse value-added service of claim 1, wherein the overseas warehouse transportation management system further comprises a plurality of transportation devices, each warehouse is provided with a plurality of transportation devices, and the transportation devices comprise an intelligent lock module, a monitoring module and a camera module; the intelligent lock module is used for locking and processing goods after the goods loading of the transportation equipment is completed, the monitoring module is used for monitoring and acquiring the state of the intelligent lock, judging the on-off state of the intelligent lock if the intelligent lock acts, starting the camera module according to the on-off state, and enabling the camera module to shoot videos or photos and send the videos or the photos to the monitoring center.

3. The operation distribution system for the value added service of the overseas warehouse as claimed in claim 2, wherein the transportation device is provided with a UWB module, and the UWB module is used for enabling the transportation device to be used as a positioning tag for positioning the UWB module, so that the monitoring center can monitor the position of the transportation device in real time.

4. A method for distributing operation of value-added service of overseas warehouse is characterized by comprising the following steps:

s1: counting orders of overseas warehouse customers, and sequentially placing the orders into an order pool of the overseas warehouse module, wherein the orders in the order pool are sequentially ordered according to delivery dates;

s2: sequentially carrying out shipment preparation according to the order delivery date of the order pool, and sequentially sending the delivery order to the overseas warehouse transportation management system according to the delivery date;

s3: the overseas warehouse transportation management system receives a delivery order of the storage module, wherein delivery information of the delivery order comprises a delivery address, target goods to be delivered and the quantity of the target goods to be delivered;

s4: the distribution system inquires whether a single warehouse meeting the distribution requirement exists according to distribution information in the distribution order, if the single warehouse meeting the distribution requirement exists, the number of the single warehouse meeting the distribution requirement is inquired, the address of the single warehouse is located, if the number of the single warehouse meeting the distribution requirement is larger than 1, the distribution address and the address of each warehouse meeting the distribution requirement are inquired, the closest warehouse meeting the distribution requirement is selected as a delivery warehouse according to the closest principle, and the transportation equipment under the warehouse is informed to distribute the target goods to the distribution address; if the quantity is equal to 1, setting the warehouse as a delivery warehouse, and informing the transportation equipment under the warehouse to carry out transportation;

if no single warehouse meeting the distribution requirement exists, sending early warning to an overseas warehouse purchasing module and sending distribution information, wherein the overseas warehouse purchasing module comprises a judging module, the judging module selects a distribution mode according to the principle of the shortest expected distribution time, and the distribution mode comprises a distribution mode from a delivery side-warehouse-distribution address and a distribution mode from each warehouse to a starting warehouse and then to the starting warehouse-distribution address;

the overseas warehouse purchasing module further comprises a calculating module, wherein the calculating module is used for calculating the predicted shortest delivery time T1 from the delivery mode of a delivery party, a warehouse and a delivery address and calculating the predicted shortest delivery time T2 from the delivery mode of the delivery party, the warehouse and the delivery address to the starting warehouse after target goods meeting delivery requirements are collected from all the warehouses;

the calculation of the predicted shortest delivery time T1 from the delivery mode of the delivery party, the warehouse and the delivery address specifically comprises the following steps:

s11: calculating the time t1, t2 and t3 from the shipper to each warehouse, wherein n is the number of warehouses;

s12: calculating the time t1', t2', t3' required for each warehouse to reach the delivery address;

s13: adding the time from the shipper to each warehouse to the time required from each warehouse to the delivery address; namely, T = [ T1+ T1', T2+ T2', T3+ T3',. tn + tn' ]isobtained, and the predicted shortest delivery time T1 in the T set is obtained;

the calculation of the predicted shortest delivery time T2 of the delivery mode of collecting the target goods satisfying the delivery demand from each warehouse to the starting warehouse and then from the starting warehouse to the delivery address specifically comprises the following steps:

s101: the overseas warehouse purchasing module inquires the quantity of the delivered target goods in each warehouse and sorts the quantity of the stored target goods of each warehouse from high to low;

s102: judging whether target goods meeting the distribution requirements can be collected by only two warehouses, and if not, selecting a mode of distribution from a delivery side, the warehouses and a distribution place; if the goods are met, recording all warehouse collocation modes of the target goods which can meet the distribution requirement only by two warehouses, taking one warehouse which is close to the distribution address of the two warehouses in each collocation mode as a starting warehouse, taking the other warehouse as a stock warehouse, and calculating the time ta1, ta2 and ta3.. tak required by all the warehouse collocation modes for collecting the target goods which meet the distribution requirement from the stock warehouse to the starting warehouse, wherein k is the number of the collocation modes of the warehouses which can collect the target goods which meet the distribution requirement only by the two warehouses;

s103: calculating the time ta1', ta2', ta3'. tak' required by each starting warehouse to the distribution address under all warehouse collocation modes;

s104: adding the time required by target goods which meet the distribution requirements and are assembled by all warehouse collocation modes from a stock warehouse to an initial warehouse and the time required by target goods which meet the distribution requirements and from each initial warehouse to a distribution address to obtain T0= [ ta1+ ta1', ta2+ ta2', ta3+ ta3',. tak + tak' ], and obtaining the predicted shortest distribution time T2 in a T0 set;

comparing the sizes of T1 and T2, if T1> T2, selecting the overseas warehouse purchasing module to place orders in time, delivering the orders from a delivery side-warehouse-delivery place,

if T1< T2, the overseas warehouse transportation management system collects the target goods meeting the distribution demand to the starting warehouse and distributes the goods from the starting warehouse to the distribution address.

5. The method for allocating jobs of value-added services in overseas warehouses according to claim 4, wherein the method of inquiring whether there is a single warehouse meeting the delivery requirements according to the delivery information in the delivery order in step S4 is specifically as follows: the warehouse quantity of the storage and distribution target goods is inquired from the warehouse information of the plurality of warehouses, whether the quantity of the storage and distribution target goods of each warehouse is more than the quantity of the required distribution target goods is judged, if the quantity of the storage and distribution target goods of the warehouse is more than the quantity of the required distribution target goods, the warehouse is a single warehouse meeting the distribution requirement, and if not, the single warehouse does not meet the distribution requirement.

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