CN106815698B - Storage operation cross-region cooperation method and system - Google Patents

Abstract

The invention discloses a cross-region coordination method for warehousing operation, which comprises the following steps: s10, obtaining the information of goods delivered to different places in the starting storehouse and sending a picking instruction; s20 primary packaging is carried out on the goods selected according to the selection instruction; s30 post-processes the pre-packaged goods arriving at the receiving warehouse to complete the packaging of the goods. Also discloses a storage operation cross-region cooperative system. According to the method and the system, the commodity package is changed from the starting bin to the receiving ground bin, so that the package pressure is dispersed, the logistics storage operation efficiency is improved, and especially under the conditions of less starting bins and more business volumes, the operation efficiency is obviously improved; meanwhile, the combined packaging of a plurality of commodities is realized, the transportation cost is reduced, and the user experience is improved.

Description

Storage operation cross-region cooperation method and system

Technical Field

The invention belongs to the field of logistics storage, and particularly relates to a cross-region coordination method and system for storage operation.

Background

The current warehouse delivery operation mode cannot exert the resource advantage of chain layout. At present, the layout of a large logistics warehouse is mainly divided into two levels, namely a regional warehouse and an urban warehouse. The regional warehouse is used for sending local city-sharing commodities and subordinate radial city warehouse commodities. The number of city bins is greater than the number of regional bins, and the city bins are mainly used for sending commodities to the last kilometer site.

Most of the shipment is concentrated in a limited number of regional warehouses and now in the warehouse workflow, ticket printing and customer packing work needs to be done at the originating warehouse (i.e., regional warehouse). Therefore, operation bottlenecks are easily caused in warehouses with large shipment quantity, operation timeliness is increased during sales promotion, and customer experience is finally influenced. In addition, the mode concentrates the delivery amount to operate, which is a great waste to the storage resources in the chain layout and can not play a good role in promoting the capacity construction of the urban warehouse.

The current practice is to pack the customer in the originating bin, and the radiation pattern at this stage is to radiate nationwide for several originating bins. This easily results in the same cart commodity purchased by the customer being shipped from a different originating bin and not packaged in accordance with the customer's merger.

Disclosure of Invention

The technical problem is as follows: the technical problem to be solved by the invention is as follows: the method and the system for the cross-region coordination of the warehousing operation are provided, the commodity packaging is changed from an originating warehouse to a receiving ground warehouse, the packaging pressure is dispersed, the logistics warehousing operation efficiency is improved, and particularly under the conditions of less originating warehouses and more business volumes, the operation efficiency is obviously improved; meanwhile, the combined packaging of a plurality of commodities is realized, the transportation cost is reduced, and the user experience is improved.

The technical scheme is as follows: in order to solve the technical problem, the embodiment of the invention adopts the technical scheme that:

in a first aspect, the present embodiment provides a cross-region coordination method for warehousing operations, including the following steps:

s10, obtaining the information of goods delivered to different places in the starting storehouse and sending a picking instruction;

s20 primary packaging is carried out on the goods selected according to the selection instruction;

s30 post-processes the pre-packaged goods arriving at the receiving warehouse to complete the packaging of the goods.

With reference to the first aspect, as a first possible implementation manner, in S20, the primary packaging is: respectively packaging one commodity and a plurality of commodities in a bare machine; for the entire commodity, a customer's receipt is attached to its existing packaging.

With reference to the first aspect, as a second possible implementation manner, in S30, the post-processing of the primary packaged goods arriving at the receiving warehouse specifically includes: for a complete piece of merchandise, the customer order on the outer package of the merchandise is scanned, the ticket is printed, and the ticket is affixed to the outer package.

With reference to the first aspect, as a third possible implementation manner, in S30, the post-processing of the primary packaged goods arriving at the receiving warehouse specifically includes: for one commodity, the transportation label is scanned, the obtained commodity information is obtained, and then the primary packaged commodity is externally packaged.

With reference to the third possible implementation manner of the first aspect, as a fourth possible implementation manner, for one commodity, before the primary packaged commodity is subjected to outer packaging, the bill and the customer slip are printed, the customer slip is attached to the outer side of the outer packaging, and the bill is placed in the outer packaging.

With reference to the first aspect, as a fifth possible implementation manner, in S30, the post-processing of the primary packaged goods arriving at the receiving warehouse specifically includes: scanning the transportation label on the transportation bin and the bar code of the bare commodity for a plurality of commodities; scanning a transfer bin bar code after the commodity is placed in the transfer bin; judging whether the transfer bin is full, if not, returning to scan the transportation label on the transportation bin and the bar code of the bare engine commodity, if so, creating a sorting task, and printing a sorting list; scanning the bar codes in the picking list to acquire commodity information; scanning a commodity bar code, displaying a commodity distribution lattice number contained in a delivery order corresponding to the commodity, and scanning the lattice number of the commodity after the commodity is placed in the lattice; and judging whether the goods grid is full, if not, returning to scan the bar codes in the picking list, and if so, packaging the plurality of commodities in a whole.

With reference to the fifth possible implementation manner of the first aspect, as a sixth possible implementation manner, before packaging the whole of the plurality of commodities, the bill and the customer sheet are printed, the customer sheet is attached to the outer side of the outer package, and the bill is placed in the outer package.

In a second aspect, the present embodiment provides a storage operation cross-region collaboration system, including:

an acquisition module: the picking system is used for acquiring information of goods delivered to different places in an originating warehouse and sending a picking instruction;

primary packaging module: the system is used for primarily packaging the commodities selected according to the selection instruction;

a post-processing module: the post-processing system is used for post-processing the goods which reach the goods receiving warehouse and are subjected to primary packaging to complete the packaging of the goods.

With reference to the second aspect, as a first possible implementation manner, the primary packaging module is specifically configured to: respectively packaging one commodity and a plurality of commodities in a bare machine manner; for the entire commodity, a customer's receipt is attached to its existing packaging.

With reference to the second aspect, as a second possible implementation manner, for a whole commodity, the post-processing module includes:

the scanning unit is used for scanning a customer bill on the outer package of the commodity to obtain commodity information;

the printing unit is used for printing a bill according to the acquired commodity information;

the packaging unit is used for attaching the bill to the outer package.

With reference to the second aspect, as a third possible implementation manner, for a commodity, the post-processing module includes:

the scanning unit is used for scanning the transportation label and acquiring the commodity information;

the printing unit is used for printing the bill and the customer bill according to the acquired commodity information;

the packaging unit is used for carrying out the extranal packing to the primary-packaged commodity, arranges the bill in the extranal packing, and the customer facing list pastes to the extranal packing outside.

With reference to the second aspect, as a fourth possible implementation manner, for a plurality of commodities, the post-processing module includes:

the first scanning unit is used for scanning the transportation label on the transportation material box and scanning the bar code of the bare computer commodity;

the second scanning unit is used for scanning the transfer bin bar code after the commodity is placed in the transfer bin;

the first judging unit is used for judging whether the transfer bin is full;

the creating unit is used for creating a sorting task and printing a sorting list;

the third scanning unit is used for scanning the bar codes in the picking list established in the establishing unit to acquire commodity information;

the fourth scanning unit is used for scanning the bar code of the commodity, displaying the commodity distribution goods lattice number contained in the delivery order corresponding to the commodity and scanning the goods lattice number of the commodity placed in the goods lattice;

the second judging unit is used for judging whether the goods grid is full;

the printing unit is used for printing the bill and the customer bill;

the packaging unit is used for packaging a plurality of commodities integrally, the bills are placed in the outer package, and the customer surface sheets are attached to the outer side of the outer package.

Has the advantages that: compared with the prior art, the storage operation cross-region cooperation method and the storage operation cross-region cooperation system can improve operation efficiency and shorten commodity transportation time. The warehousing operation cross-region cooperation method of the embodiment transfers the packaging link from the starting warehouse to the receiving warehouse. In the logistics operation, the packaging link is time-consuming. When the traffic is large, the packaging links in the starting bin are dispersed to all receiving ground bins, so that the operation pressure of the starting bin is effectively relieved. Meanwhile, a plurality of commodities in a plurality of starting bins are uniformly packaged in the receiving bin, so that the packaging and transportation cost is reduced, and the user experience is improved.

Drawings

FIG. 1 is a block flow diagram of a method in an embodiment of the invention;

FIG. 2 is a flow chart of a method in an embodiment of the invention;

FIG. 3 is a block diagram of the architecture of the system in an embodiment of the invention;

FIG. 4 is a block diagram of an architecture of a post-processing module in an embodiment of the invention;

fig. 5 is another block diagram of the post-processing module according to the embodiment of the present invention.

Detailed Description

The technical solution of the embodiment of the present invention will be described in detail below with reference to the accompanying drawings.

The method according to the embodiment is only suitable for delivering commodities in different places, namely delivering commodities across regions. Before step S10, it is necessary to determine whether the commodity located in the originating warehouse is delivered in the same city or in a different place. The method for judging whether the commodity is delivered to the same city or the different place comprises the following steps: the logistics execution system of the starting warehouse judges whether the goods are delivered in the same city or in different places according to the routing information in the delivery list generated by the purchase transaction. The routing information includes the delivery address, and the judgment is carried out by judging whether the delivery address is consistent with the place where the starting bin is located. For example, the routing information is Nanjing City-Nanjing City. In the routing information, the location of the starting warehouse is Nanjing, and the receiving place is Nanjing, and then the commodity is judged to be delivered in the same city. The routing information is Nanjing, Jinan. In the routing information, the location of the starting warehouse is Nanjing, and the receiving place is Jinan, the commodity is judged to be delivered to other places. The method of the embodiment only relates to the delivery of goods in different places.

The goods delivered to different places are divided into three kinds, which are respectively: one item, multiple items, and a single item. By a good is meant that only one good is purchased by a buyer. The multiple commodities in one buyer are purchased simultaneously and placed in the same shopping cart. The whole commodity is a commodity which is purchased by a buyer and does not need to be externally packaged, namely, the commodity is already externally packaged when being shipped from a factory and does not need to be externally packaged again when being distributed. Such as microwave ovens, electric rice cookers, foot tubs, computer mainframes, etc.

An originating warehouse, a receiving warehouse and an express delivery point are built in the logistics system. The commodity library is stored in an originating bin. After buying goods, the buyer transports the goods from the origin storehouse to the receiving storehouse and then to each express delivery point through the receiving storehouse.

As shown in fig. 1, the method for coordinating storage operations across regions in this embodiment includes the following steps:

s10, obtaining the information of goods delivered to different places in the starting storehouse and sending a picking instruction;

s20 primary packaging is carried out on the goods selected according to the selection instruction;

s30 post-processes the pre-packaged goods arriving at the receiving warehouse to complete the packaging of the goods.

In the prior art, the final packaging of the goods is completed in the origin bin and transported to the receiving ground bin. When the traffic is large, the operation of the originating warehouse may encounter a bottleneck, and the flow of the commodity is difficult to be smoothly realized. In this embodiment, only the goods are initially packaged in the originating bin. Final packaging of the goods is performed at the receiving warehouse. In the existing logistics field, one originating warehouse corresponds to a plurality of receiving warehouse. As shown in fig. 2, the warehousing operation of the present embodiment uses a cross-region cooperation method to transfer the packaging link from the originating warehouse to the receiving warehouse. The packaging links in the starting bin are dispersed to all receiving place bins, so that the operation pressure of the starting bin is effectively relieved. Meanwhile, a plurality of commodities located in a plurality of starting bins are packaged in the receiving bin in a unified mode, packaging and transportation cost is reduced, and customer experience is improved. The storage operation cross-region cooperation method and system can improve operation efficiency, shorten commodity transportation time and improve customer experience.

The Logistics Execution System (LES) acquires information of remotely delivered goods in the originating warehouse, prints a sorting list and sends a sorting instruction. The picking list comprises information such as task type, road junction, next destination, commodity code, commodity description, bin position, quantity, EAN or national standard code, total picking quantity, printer, printing date and time and the like. The task type includes whether the item belongs to a whole item, a single item, or a plurality of items.

In S20, the corresponding item is picked from the originating bin in accordance with the picking instructions of S10. Primary packaging is carried out on the sorted goods. Specifically, one commodity and a plurality of commodities are individually packaged in a bare state, and a customer sheet is attached to the existing package of the whole commodity. The bare machine package refers to the behavior that the commodity is directly put into a transport package for transportation by the original package of a manufacturer under the condition that the commodity is not packaged by a customer. The transport bin is used for storing goods to be delivered and transporting the goods from the starting bin to the receiving bin. The shipping label contains routing information, a bar code of the box, type information of the bin, etc. Wherein the routing information is a transportation route. For example, the routing information is Nanjing-Jinan-A express delivery point. The routing information comprises information that the location of the starting bin is Nanjing, the location of the receiving bin is Jinan, and the information is delivered to the buyer by the courier at the A express point. The bar code of the box body comprises LOGO of a merchant, identification of whether one box or a plurality of boxes is a one-to-one box, a subsidized identification, a forward and reverse identification, a B2BB2C identification, a packing quantity, a transport box bar code, routing information, a cargo collection position, a weight, a desired delivery date and an air-land transport identification. The bin type information includes both one piece and multiple pieces. Whether the goods belong to one commodity or a plurality of commodities can be known through the type information of the bin. And placing the primarily packaged commodities in a conveying box and conveying the commodities to a receiving ground bin. S20 is completed in the originating bin. At S20, instead of final customer packaging of one item and multiple items, bare-machine packaging is performed, and the final packaging process is completed at the receiving location.

At S30, when the goods are transported to the receiving warehouse, the wireless code scanning gun is used to scan the transportation label on the bin, and the bin type information contained in the transportation label is fed back to the wireless code scanning gun. Bin type information will show whether the items in the bin are one item or multiple items. The whole commodity does not need to be packaged again due to the existence of the complete outer package. The whole commodity does not need to be transported through a transportation bin and exists independently.

For a complete piece of merchandise, the customer's bill on the outer package of the merchandise is scanned, a ticket, such as an invoice, is printed, and the ticket is affixed to the outer package. For a complete piece of merchandise, separate repackaging is not required, as the merchandise is shipped with an outer package. At this time, the customer bill and the bill are pasted on the outer package.

For one commodity, the transportation label is scanned, the obtained commodity information is obtained, and then the primary packaged commodity is externally packaged. And (4) transporting the packaged commodities to a goods collecting position to be transported to an express delivery point.

Preferably, for one commodity, the transportation label is firstly scanned, the transportation box is removed, then a bill (such as an invoice) and a customer bill are printed according to the commodity information obtained by scanning the transportation label, then the bare commodity is externally packaged, and the bill is put into the external package.

Place the bill at the outsourcing inboard, the customer face is singly placed at the outsourcing outside, and the commodity that will pack is transported to album goods position at last to the express delivery point is transported. Preferably, before the bare computer commodity is externally packaged, the bar code of the bare computer commodity is scanned to check whether the commodity information is accurate. The bar code of the bare computer commodity comprises a national standard code (69 codes), a code inside an operation enterprise, a three-C electronic product single product serial code and the like.

For a plurality of items: and placing the commodities in a transfer bin, distributing the commodities to the goods grids after the bins are full, and externally packaging the commodities in the goods grids integrally after the goods grids are full. And (4) transporting the packaged commodities to a goods collecting position to be transported to an express delivery point.

Specifically, for a plurality of commodities, firstly, a transportation label on a transportation box is scanned, and the transportation box is detached; then scanning the bar code of the bare computer commodity; then, putting the commodity into a transfer bin, and scanning a bar code of the transfer bin until the transfer bin is full; then creating a picking task, and printing a picking list, wherein the picking list comprises bin position information, commodity information and commodity number information; picking commodities from the transfer position according to a picking list, and sorting the picked commodities according to customers; scanning the bar codes in the picking list to acquire commodity information; scanning the bar code of the commodity, and displaying the commodity distribution lattice number contained in the delivery order corresponding to the commodity; the goods are placed in the grid and the grid number is scanned. If the goods grid is full, a plurality of goods in the same goods grid are packaged in a whole. And (4) transporting the packaged commodities to a goods collecting space to be transported to an express delivery point. Preferably, before packaging the entire plurality of commodities, the bill and the customer slip are printed, the customer slip is attached to the outside of the outer package, and the bill is put into the outer package.

Scanning the transportation labels on the transportation material box, on one hand, checking whether the scanned commodities need to be put on shelves or not, and eliminating stacking errors during unloading; on the other hand, the system grabs all the delivery order information to the originating bin package. A transport package to be shelved contains a number of delivery orders. Scanning the bar code of the bare engine commodity can verify whether the initial warehouse commodity is correctly packed, eliminate the commodity with wrong packing in the initial warehouse, find the corresponding delivery order through the bar code of the commodity, and finish the binding of the delivery order and the transit position.

The transfer bin is a bin for temporarily storing a plurality of commodities on shelves from the starting bin to the receiving bin. The transfer bin is a common partition plate, namely a goods shelf. The grid refers to equipment for sorting operations by customers, typically a mobile sorting cart with wheels. The transfer bin commodity adopts a mixed storage strategy, namely, as long as the transfer bin can be placed, the commodity can be unlimitedly put on the shelf to the same bin. However, in order to avoid picking in delivery, a lot of time is spent in the warehouse to find the delivery, so the maximum number of SKUs of the transfer warehouse is set in the system, and excessive types of commodities are prevented from being stored in one warehouse. The purpose of putting the commodities into the transfer bin is to wait for a customer to buy the commodities and then uniformly create tasks, merge and package. If the goods are directly put on the shelf, the turnover rate of the goods shelf is greatly reduced. For example, when a regular bus is delayed, a lot of commodities on the shelf can be overstocked on the goods shelf, and the overall operation efficiency is affected.

Preferably, the method for judging whether the transfer bin is full comprises the following steps: the system sets the maximum number of SKU of the goods stored in the transfer bin, and when the maximum number of SKU is reached, the system displays that the bin is full.

Preferably, the method for judging whether the goods grid is full is as follows: the system judges whether the delivery orders corresponding to the same BOL (bill of goods) are scanned, if so, the goods grid is full; if not, the cargo space is not full.

The method for judging the arrival of a plurality of commodities comprises the following steps: when a customer purchases goods in the foreground, the system generates a BOL number for all goods in a shopping cart. If a customer purchases the mobile phone for multiple times within a certain time (for example, the customer purchases the mobile phone and purchases the film after 10 minutes), the logistics system judges that a BOL number is generated by the mobile phone and the film as long as the mobile phone does not start to be picked. In the warehouse, since the commodities of the same BOL number need to be packaged together and sent to a customer, when the goods are unpacked and put on a shelf at a receiving place, the commodity label is scanned and the commodity information is stored. The information obtained by scanning is compared with the customer commodity list stored in the system. If the BOL numbers are the same, multiple commodities of the same BOL are on the shelf, picking of the task is triggered, the commodities of the same BOL number are picked out in a picking batch, placed in the same goods grid, combined, packaged into a package and sent to a customer. If not, the commodities are continuously scanned and put on shelves until the commodities are the same.

After a plurality of commodities arrive at the same place, a task order is created in batch, bills are printed, and the commodities in different starting bins are combined and packaged in a receiving bin.

When the interface of the sorting function system is designed, the operation interface is divided into an upper column and a lower column, the unsorted delivery order is displayed on the upper column, and the sorted delivery order is displayed on the lower column. After scanning the bar code of the item to find the delivery order, the delivery order jumps from the top of the interface to the bottom of the display box, so that when the operator scans all the items in the bin, the remaining unsorted delivery orders are the delivery orders that have not been picked.

The embodiment utilizes the advantage of logistics chain layout to transfer the existing packaging link of the starting warehouse to the receiving ground warehouse, thereby effectively relieving the operation pressure of the starting warehouse. The embodiment improves the operation capacity of the starting bin and the packaging order rate of customers under the condition of not increasing investment. The multiple commodities are packaged in a centralized manner at the receiving place, so that the customer experience can be improved. In the prior art, the goods from the various sources cannot be combined and packaged for delivery to the customer.

By calculation, the prior art takes 51 minutes for 3 hours per sheet from the creation of a picking order to the completion of a package waiting for loading. With the method of the embodiment, 3 hours and 1 minute are consumed from the creation of the picking task to the completion of the packaging and waiting for loading. This embodiment improves the originating bin efficiency every 50 minutes. The improvement of the operation efficiency of the originating warehouse enables the delivery bottleneck amount of the originating warehouse to be relieved. This embodiment can produce greater output with the same site stations and personnel.

As shown in fig. 3, the present embodiment provides a cross-region collaborative system for warehousing operations, which includes:

an acquisition module: the picking system is used for acquiring information of goods delivered to different places in an originating warehouse and sending a picking instruction;

primary packaging module: the system is used for primarily packaging the commodities selected according to the selection instruction;

a post-processing module: the post-processing system is used for post-processing the goods which reach the goods receiving warehouse and are subjected to primary packaging to complete the packaging of the goods.

In the system, the acquisition module and the primary packaging module are positioned in the originating bin. The post-processing module is positioned in the goods receiving ground bin. In the originating warehouse, only the goods delivered to the other place are primarily packaged. And (4) placing the customer packaging link in a goods receiving warehouse, and finishing through a post-processing module. In the existing logistics field, one originating warehouse corresponds to a plurality of receiving warehouse. In the storage operation cross-region cooperative system of the embodiment, the customer packaging link is transferred from the starting bin to the receiving bin. The customer packaging links in the starting warehouse are dispersed to all the receiving ground warehouses, and the operation pressure of the starting warehouse is effectively relieved. Meanwhile, a plurality of commodities located in a plurality of starting bins are uniformly packaged through the post-processing module in the receiving bin, so that the packaging and transportation cost is reduced, and the customer experience is improved. The storage operation cross-region collaborative system of the embodiment can improve the operation efficiency, shorten the commodity transportation time and improve the customer experience.

The primary packaging module is specifically configured to: respectively packaging one commodity and a plurality of commodities in a bare machine manner; for the entire commodity, a customer's receipt is attached to its existing packaging.

The bare machine package refers to the behavior that the commodity is directly put into a transport package for transportation by the original package of a manufacturer under the condition that the commodity is not packaged by a customer. The transport bin is used for storing goods to be delivered and transporting the goods from the starting bin to the receiving bin. The shipping label contains routing information, a bar code of the box, type information of the bin, etc. The bin type information includes both one piece and multiple pieces. Whether the goods belong to one commodity or a plurality of commodities can be known through the type information of the bin. And placing the primarily packaged commodities in a conveying box and conveying the commodities to a receiving ground bin. In the primary packaging module, final customer packaging is not carried out on one commodity and a plurality of commodities, only bare-machine packaging is carried out, and the final customer packaging link is placed in a receiving place to be completed.

As shown in fig. 4, for a whole article, the post-processing module includes:

the scanning unit is used for scanning a customer bill on the outer package of the commodity to obtain commodity information;

the printing unit is used for printing a bill according to the acquired commodity information;

the packaging unit is used for attaching the bill to the outer package.

As shown in fig. 4, for a piece of merchandise, the post-processing module comprises: scanning unit, printing unit and packing unit. The scanning unit is used for scanning the transportation label and obtaining the commodity information. The printing unit is used for printing the bill and the customer bill according to the acquired commodity information. The packaging unit is used for carrying out external packaging on bare machine commodities, placing bills in the external packaging, and attaching the customer surface sheets to the outer side of the external packaging. And (4) transporting the packaged commodities to a goods collecting position to be transported to an express delivery point.

As shown in fig. 5, the post-processing module includes a first scanning unit, a second scanning unit, a first judging unit, a creating unit, a third scanning unit, a fourth scanning unit, a second judging unit, a printing unit, and a packing unit for a plurality of commodities.

The first scanning unit is used for scanning the transportation label on the transportation box and scanning the bar code of the bare computer commodity.

The second scanning unit is used for scanning the transfer bin bar code after the commodity is placed in the transfer bin.

The first judging unit is used for judging whether the transfer bin is full.

The creating unit is used for creating the sorting task and printing the sorting list.

The third scanning unit is used for scanning the bar codes in the picking list created in the creating unit to acquire commodity information.

The fourth scanning unit is used for scanning the bar code of the commodity, displaying the commodity distribution lattice number contained in the delivery order corresponding to the commodity and scanning the lattice number of the commodity after the commodity is placed in the lattice.

The second judging unit is used for judging whether the goods grid is full.

The printing unit is used for printing the bill and the customer list.

The packaging unit is used for packaging a plurality of commodities integrally, the bills are placed in the outer package, and the customer surface sheets are attached to the outer side of the outer package. And finally, transporting the packaged commodities to a goods collecting space to be transported to an express delivery point.

For a plurality of commodities, firstly, a first scanning unit is used for scanning a transportation label on a transportation box and a bar code of a bare commodity to acquire commodity information. And placing the scanned commodity into a transfer bin. And then scanning the bar code of the transfer bin by using a second scanning list to correspond the commodity with the transfer bin. Whether the transfer bin is full is judged through the first judging unit. If not, the commodity is continuously put in. If the warehouse is full, a picking task is created through the creating unit, and a picking list is printed, wherein the picking list comprises warehouse space information, commodity information and commodity number information. And scanning the bar codes in the picking list through a third scanning unit to acquire commodity information. Picking the commodities from the transfer position, and sorting the picked commodities according to customers. And scanning the bar code of the commodity through a fourth scanning unit, and displaying the commodity distribution lattice number contained in the delivery order corresponding to the commodity. And placing the commodity in the goods grid, and scanning the goods grid number through the fourth scanning unit. And judging whether the goods grid is full through the second judging unit. If the goods grid is full, the bill and the customer order are printed by the printing unit. A plurality of commodities are integrally packaged through the packaging unit, the bills are placed on the inner side of the package, and the customer bills are placed on the outer side of the package. And finally, transporting the packaged commodities to a goods collecting space to be transported to an express delivery point.

In the first judging unit, the method for judging whether the transfer bin is full is as follows: the system sets the maximum number of SKU of the goods stored in the transfer bin, and when the maximum number of SKU is reached, the system displays that the bin is full.

In the second judging unit, the method for judging whether the cargo space is full is as follows: the system judges whether the delivery orders corresponding to the same BOL (bill of goods) are scanned, if so, the goods grid is full; if not, the cargo space is not full.

Those skilled in the art can make non-inventive technical improvements to the present application based on the above-described embodiments without departing from the spirit of the present invention. Such modifications are to be considered within the scope of the claims of the present application.

Claims (8)

1. A cross-region coordination method for warehousing operation is characterized by comprising the following steps:

s10, obtaining the information of goods delivered to different places in the starting storehouse and sending a picking instruction;

s20 primary packaging is carried out on the goods selected according to the selection instruction;

s30, post-processing the initially packaged commodities arriving at the goods receiving warehouse to complete the packaging of the commodities;

in S20, the primary packaging is performed by: respectively packaging one commodity and a plurality of commodities in a bare machine; for the whole commodity, a customer list is pasted on the existing package; wherein, the bare machine packaging refers to the behavior that the commodity is directly put into a transport package for transportation by the original package of a manufacturer under the condition of not packaging the commodity by a customer;

in S30, the post-processing of the primary packaged goods arriving at the receiving warehouse specifically includes: scanning the transportation label on the transportation bin and the bar code of the bare commodity for a plurality of commodities; scanning a transfer bin bar code after the commodity is placed in the transfer bin; judging whether the transfer bin is full, if not, returning to scan the transportation label on the transportation bin and the bar code of the bare engine commodity, if so, creating a sorting task, and printing a sorting list; scanning the bar codes in the picking list to acquire commodity information; scanning a commodity bar code, displaying a commodity distribution lattice number contained in a delivery order corresponding to the commodity, and scanning the lattice number of the commodity after the commodity is placed in the lattice; and judging whether the goods grid is full, if not, returning to scan the bar codes in the picking list, and if so, packaging the plurality of commodities in a whole.

2. The method for performing collaborative across geographical areas for warehousing operations as claimed in claim 1, wherein the step S30 of post-processing the primary packaged goods arriving at the receiving warehouse comprises: for a complete piece of merchandise, the customer order on the outer package of the merchandise is scanned, the ticket is printed, and the ticket is affixed to the outer package.

3. The method for performing collaborative across geographical areas for warehousing operations as claimed in claim 1, wherein the step S30 of post-processing the primary packaged goods arriving at the receiving warehouse comprises: for one commodity, the transportation label is scanned, the obtained commodity information is obtained, and then the primary packaged commodity is externally packaged.

4. The method for coordinating across territories a warehouse operation according to claim 3, wherein for one commodity, before the primary packaged commodity is externally packaged, the bill and the customer bill are printed, the customer bill is attached to the outer side of the external package, and the bill is put into the external package.

5. The method of claim 1, wherein the method further comprises printing the bills and the customer sheet, attaching the customer sheet to the outside of the outer package, and placing the bills in the outer package before packaging the plurality of commodities in a single package.

6. A cross-regional collaborative system for warehousing operations, the system comprising:

an acquisition module: the picking system is used for acquiring information of goods delivered to different places in an originating warehouse and sending a picking instruction;

primary packaging module: the system is used for primarily packaging the commodities selected according to the selection instruction;

a post-processing module: the post-processing system is used for post-processing the goods which arrive at the goods receiving warehouse and are subjected to primary packaging to complete the packaging of the goods;

the primary packaging module is specifically used for: respectively packaging one commodity and a plurality of commodities in a bare machine manner; for the whole commodity, a customer list is pasted on the existing package; wherein, the bare machine packaging refers to the behavior that the commodity is directly put into a transport package for transportation by the original package of a manufacturer under the condition of not packaging the commodity by a customer;

for a plurality of articles, the post-processing module comprises:

the first scanning unit is used for scanning the transportation label on the transportation material box and scanning the bar code of the bare computer commodity;

the second scanning unit is used for scanning the transfer bin bar code after the commodity is placed in the transfer bin;

the first judging unit is used for judging whether the transfer bin is full;

the creating unit is used for creating a sorting task and printing a sorting list;

the third scanning unit is used for scanning the bar codes in the picking list established in the establishing unit to acquire commodity information;

the fourth scanning unit is used for scanning the bar code of the commodity, displaying the commodity distribution goods lattice number contained in the delivery order corresponding to the commodity and scanning the goods lattice number of the commodity placed in the goods lattice;

the second judging unit is used for judging whether the goods grid is full;

the printing unit is used for printing the bill and the customer bill;

the packaging unit is used for packaging a plurality of commodities integrally, the bills are placed in the outer package, and the customer surface sheets are attached to the outer side of the outer package.

7. The warehousing operation cross-regional coordination system according to claim 6, wherein the post-processing module comprises, for a whole commodity:

the scanning unit is used for scanning a customer bill on the outer package of the commodity to obtain commodity information;

the printing unit is used for printing a bill according to the acquired commodity information;

the packaging unit is used for attaching the bill to the outer package.

8. The warehousing operation cross-regional coordination system according to claim 6, wherein the post-processing module comprises, for a commodity,:

the scanning unit is used for scanning the transportation label and acquiring the commodity information;

the printing unit is used for printing the bill and the customer bill according to the acquired commodity information;

the packaging unit is used for carrying out the extranal packing to the primary-packaged commodity, arranges the bill in the extranal packing, and the customer facing list pastes to the extranal packing outside.

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