CN112232734A - Sorting system for intelligent warehousing and working method thereof - Google Patents

Abstract

The invention discloses a sorting system for intelligent storage and a working method thereof, wherein background data of a shop is accessed and acquired, and the background data comprises order information of the shop; extracting order transaction time from the order information, and further extracting order information within preset time; extracting commodity information in the order information; extracting the number of commodities in the order information, and further counting the shipment volume of each commodity within preset time; extracting position information of a goods shelf on which each commodity is placed; calculating the distance between the position information of the shelf and the warehouse exit; arranging the commodities in a descending order according to the delivery quantity to obtain a first list, and arranging the commodities in an ascending order according to the distance between the placement position and the warehouse exit to obtain a second list; judging whether the arrangement sequence of the commodities in the first list and the second list is the same; if not, the distance relation between the placing positions of the commodities and the warehouse outlet is adjusted according to the sequence in the first list.

Description

Sorting system for intelligent warehousing and working method thereof

Technical Field

The invention relates to the field of logistics storage, in particular to a sorting system for intelligent storage and a working method thereof.

Background

With the development of the internet economy, the demand mode is changed in a personalized and diversified manner, and the storage function is gradually changed from the preservation importance to the realization of the circulation function. The commodity management is a complicated work, such as an offline warehouse of a network shop, and is characterized in that a large number of commodities are tracked and managed in real time in a large space, including management of various states such as warehousing, ex-warehouse, circulation and the like.

Traditional simple and static warehousing management cannot guarantee efficient utilization of various resources of enterprises. Today's warehouse operations and inventory control operations are complicated and diversified, and the placement of commodities in the warehouse affects the commodity delivery efficiency.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the disadvantages in the background art, embodiments of the present invention provide a sorting system for smart storage and a working method thereof, which can effectively solve the problems related to the background art.

The technical scheme is as follows:

the utility model provides a letter sorting system for intelligent storage, includes database and transfer robot, the database is used for the storage to predetermine the position information of each goods shelves in the warehouse and the independent serial number of goods shelves, the database still is used for storing the information of the commodity of depositing on each goods shelves, transfer robot is used for adjusting the commodity on each goods shelves, letter sorting system still includes:

the system comprises an order acquisition module, a data processing module and a data processing module, wherein the order acquisition module is configured to access background data of a shop and acquire the background data, and the background data comprises order information of the shop;

the first extraction module is configured to extract order transaction time from the order information and further extract order information within preset time;

the second extraction module is configured to extract the commodity information in the order information;

the counting module is configured to extract the number of the commodities in the order information and further count the shipment volume of each commodity within preset time;

a third extraction module configured to extract position information of a shelf on which each commodity is placed;

a calculation module configured to calculate a distance between the location information of the shelf and a warehouse exit;

the sorting module is configured to arrange the commodities in a descending order according to the shipment quantity to obtain a first list and arrange the commodities in an ascending order according to the distance between the placement position and the warehouse exit to obtain a second list;

the first judging module is configured to judge whether the arrangement sequence of the commodities in the first list and the second list is the same;

and the carrying module is configured to adjust the distance relation between the placement positions of the commodities and the warehouse outlet according to the sequence in the first list.

As a preferred embodiment of the present invention, the present invention further comprises:

the second judging module is configured to judge whether the order information comprises a goods returning and changing condition;

and the counting submodule is configured to delete the shipment quantity of repeated shipment of the commodities in the same order information when the order information has the condition of returning the commodities.

As a preferred embodiment of the present invention, the present invention further comprises:

the fourth extraction module is configured to extract the commodities which are different from the commodities in the first list in sequence from the second list and set the commodities as target commodities;

a fifth extraction module configured to extract, among the target commodities, a first target commodity that is most front in the first list;

a fifth extraction sub-module configured to extract, among the target commodities, a second target commodity that is most advanced in the second list.

As a preferred embodiment of the present invention, the present invention further comprises:

a sixth extraction module configured to extract, among the target commodities, a third target commodity that is most posterior in the first list;

a sixth extraction sub-module configured to extract, among the target commodities, a fourth target commodity that is most posterior in the second list;

and a carrying sub-module configured to exchange the first target article with the second target article and exchange the third target article with the fourth target article.

As a preferred embodiment of the present invention, the present invention further comprises:

and the updating module is configured to update the arrangement sequence of the target commodities in the second list after the placement positions of the target commodities are adjusted.

The working method of the sorting system for the intelligent warehousing comprises the following working steps:

s101: accessing background data of a shop and acquiring the background data, wherein the background data comprises order information of the shop;

s102: extracting order transaction time from the order information, and further extracting order information within preset time;

s103: extracting commodity information in the order information;

s104: extracting the number of commodities in the order information, and further counting the shipment volume of each commodity within preset time;

s105: extracting position information of a goods shelf on which each commodity is placed;

s106: calculating the distance between the position information of the shelf and the warehouse exit;

s107: arranging the commodities in a descending order according to the delivery quantity to obtain a first list, and arranging the commodities in an ascending order according to the distance between the placement position and the warehouse exit to obtain a second list;

s108: judging whether the arrangement sequence of the commodities in the first list and the second list is the same;

s109: if not, the distance relation between the placing positions of the commodities and the warehouse outlet is adjusted according to the sequence in the first list.

As a preferred embodiment of the present invention, S104 further includes:

judging whether the order information comprises a goods returning and changing condition;

if yes, when the goods belong to the condition of goods return, the goods in the order information are not counted into the goods output amount;

and when the goods are changed, only the single shipment volume is counted for the goods in the order information.

As a preferred aspect of the present invention, S109 further includes:

extracting commodities which are different from the commodities in the first list in sequence from the second list and setting the commodities as target commodities;

extracting first target commodities which are most front in a first list from the target commodities;

extracting a second target commodity which is most front in a second list from the target commodities;

and exchanging the positions of the first target commodity and the second target commodity.

As a preferred embodiment of the present invention, the present invention further comprises:

extracting a third target commodity which is the rearmost in the first list from the target commodities;

extracting a fourth target commodity which is the most rear in the second list from the target commodities;

and exchanging the position of the third target commodity with the position of the fourth target commodity.

As a preferred embodiment of the present invention, the present invention further comprises:

and updating the arrangement sequence of the target commodities in the second list after the placement positions of the target commodities are adjusted.

The invention realizes the following beneficial effects:

background data of a shop are obtained, the background data comprise order information, and a system sorts the commodities in a warehouse based on the order information; the method comprises the steps of firstly counting the shipment volume of various commodities, arranging the commodities in a descending order according to the shipment volume to obtain a first list, then counting the distances between the commodities and a warehouse outlet, arranging the commodities in an ascending order according to the distances to obtain a second list, indicating that the commodities with different orders need to be sorted when the arrangement orders of the commodities in the first list and the commodities in the second list are different, and adjusting the distance relation between the placement positions of the commodities and the warehouse outlet according to the order in the first list; after finishing sorting, the commodity with the largest delivery quantity is closest to the warehouse exit, so that the commodity delivery efficiency is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a flowchart of a method for operating a sorting system for smart warehousing according to the present invention.

Fig. 2 is a flowchart of a target product exchange method provided by the present invention.

Fig. 3 is a flow chart of another target product exchange method provided by the present invention.

Fig. 4 is a flowchart of a shipment volume modification method provided by the present invention.

Fig. 5 is a block diagram of a sorting system according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

As shown in fig. 1, the present embodiment provides an operating method of a sorting system for smart storage, which includes the following steps:

s101: accessing background data of a shop and acquiring the background data, wherein the background data comprises order information of the shop;

s102: extracting order transaction time from the order information, and further extracting order information within preset time;

s103: extracting commodity information in the order information;

s104: extracting the number of commodities in the order information, and further counting the shipment volume of each commodity within preset time;

s105: extracting position information of a goods shelf on which each commodity is placed;

s106: calculating the distance between the position information of the shelf and the warehouse exit;

s107: arranging the commodities in a descending order according to the delivery quantity to obtain a first list, and arranging the commodities in an ascending order according to the distance between the placement position and the warehouse exit to obtain a second list;

s108: judging whether the arrangement sequence of the commodities in the first list and the second list is the same;

s109: if not, the distance relation between the placing positions of the commodities and the warehouse outlet is adjusted according to the sequence in the first list.

Specifically, a database is arranged in the system, the database is used for storing position information of each goods shelf in the warehouse and independent numbers of the goods shelves, the independent numbers are convenient for searching the goods shelves, the database is also used for storing information of commodities stored on the goods shelves, corresponding relations are established between the goods shelves and the commodities placed on the goods shelves, and the position information of the goods shelves is the position information of the commodities placed on the goods shelves.

The warehouse is internally provided with a plurality of transfer robots, and the transfer robots are used for transferring commodities on the goods shelves.

In S101, the system is applied to an offline warehouse of a network store, firstly accesses background data of the store, downloads the background data and periodically updates the background data.

The backend data includes order information for the store.

In S102, the order information includes the order transaction time and the current status of the order, and the status of the order includes to-be-shipped, in-delivery, signed-in, in-exchange, returned, and the like.

The system sorts various commodities in the warehouse according to order information of preset time, and the preset time is set by a user.

In S103, the commodity information in the order information is extracted, where the commodity information includes a commodity name and a number of commodities.

In S104, the number of copies of the product in the order information is extracted, and the shipment volume of each product is counted, where the shipment volume is the total number of copies of the product.

In S105, a correspondence relationship is established between the product and the shelf on which the product is placed, and position information of the shelf on which each product is placed, that is, position information of the product is extracted from the correspondence relationship.

In S106, the distance between the position information of the rack and the warehouse exit, that is, the distance between the commodity placement position and the warehouse exit is calculated.

In S107, the commodities are sorted in descending order according to shipment volume to obtain a first list, where the first list is a commodity list.

And then, arranging the commodities in ascending order according to the distance between the commodities and the warehouse exit to obtain a second list, wherein the second list is also a commodity list.

In S108, if the same kind of product has the same rank in the first list and the second list, the product does not need to be sorted, and if the same kind of product has a different rank in the first list and the second list, the placement position of the product needs to be adjusted.

In S109, the placement position of each article is adjusted using the transfer robot so that the first list and the second list have the same rank.

Example two

As shown in fig. 2, S109 further includes:

extracting commodities which are different from the commodities in the first list in sequence from the second list and setting the commodities as target commodities;

extracting first target commodities which are most front in a first list from the target commodities;

extracting a second target commodity which is most front in a second list from the target commodities;

and exchanging the positions of the first target commodity and the second target commodity.

As shown in fig. 3, a third target product which is the rearmost in the first list is extracted from the target products;

extracting a fourth target commodity which is the most rear in the second list from the target commodities;

and exchanging the position of the third target commodity with the position of the fourth target commodity.

And updating the arrangement sequence of the target commodities in the second list after the placement positions of the target commodities are adjusted.

Specifically, before each commodity is adjusted, the adjusted commodity type is determined. And comparing the first list with the second list, and eliminating the commodities which are ranked the same in the two lists in the second list, so that the commodities which are ranked differently in the two lists are obtained and defined as target commodities.

The present embodiment adjusts the position of each target commodity. First target commodities which are the most front in the first list are extracted from the target commodities, the first target commodities are the commodities with the largest shipment volume in the target commodities, second target commodities which are the most front in the second list are extracted from the target commodities, and the first target commodities and the second target commodities are exchanged in position by using a carrying robot.

And updating the sequence of the first target commodity and the second target commodity in the second list after the positions of the first target commodity and the second target commodity are changed.

A third target commodity closest to the first list is extracted from the target commodities, the third target commodity is a commodity with the smallest shipment quantity among the target commodities, a fourth target commodity closest to the second list is extracted from the target commodities, and the third target commodity and the fourth target commodity are exchanged in position by using a transfer robot.

And updating the sequence of the third target commodity and the fourth target commodity in the second list after the positions of the third target commodity and the fourth target commodity are changed.

According to the adjusting method, the front most target commodity and the rear most target commodity in the first list are adjusted, after the second list is updated, namely the target commodity is updated, the front most target commodity and the rear most target commodity in the first list are adjusted until all the target commodities are adjusted.

EXAMPLE III

As shown in fig. 4, S104 further includes:

judging whether the order information comprises a goods returning and changing condition;

if yes, when the goods belong to the condition of goods return, the goods in the order information are not counted into the goods output amount;

and when the goods are changed, only the single shipment volume is counted for the goods in the order information.

Specifically, if there is a return of goods in the order information, the shipment volume at this time does not match the actual sales volume, for example, the user returns the goods after receiving the goods, the actual sales volume does not occur although the goods are shipped, and the shipment volume of the return of goods needs to be deleted.

Example four

As shown in fig. 5, a sorting system for smart warehousing includes:

the order acquisition module 401 is configured to access background data of a store and acquire the background data, wherein the background data includes order information of the store;

a first extraction module 402, configured to extract order-making time from the order information, and further extract order information within a preset time;

a second extraction module 403, configured to extract the commodity information in the order information;

a counting module 404 configured to extract the number of the commodities in the order information and further count the shipment volume of each commodity within a preset time;

a third extraction module 405 configured to extract position information of a shelf on which each commodity is placed;

a calculation module 406 configured to calculate a distance of the location information of the shelf from a warehouse exit;

the sorting module 407 is configured to sort the commodities in a descending order according to the shipment volume to obtain a first list, and sort the commodities in an ascending order according to the distance between the placement position and the warehouse exit to obtain a second list;

a first judging module 408 configured to judge whether the arrangement order of the commodities in the first list and the second list is the same;

and the carrying module 409 is configured to adjust the distance relationship between the placement positions of the commodities and the warehouse exit according to the sorting in the first list.

A second determining module 410 configured to determine whether the order information includes a return condition;

the statistic submodule 411 is configured to delete the shipment amount of the repeated shipment of the goods in the same order information when the order information has the condition of returning goods.

A fourth extraction module 412 configured to extract and set as a target product a product in the second list that is not ranked in the first list;

a fifth extraction module 413 configured to extract a first target commodity which is the most front in the first list from the target commodities;

a fifth extraction sub-module 414 configured to extract a second target item that is the most front in the second list among the target items.

A sixth extraction module 415 configured to extract a third target commodity which is most rear in the first list from the target commodities;

a sixth extraction sub-module 416 configured to extract a fourth target product most posterior in the second list from among the target products;

the conveyance sub-module 417 is configured to exchange the first target product with the second target product and exchange the third target product with the fourth target product.

An updating module 418 configured to update the arrangement order of the target product in the second list after the placement position of the target product is adjusted.

The system provided in the fourth embodiment is only illustrated by dividing the functional modules, and in practical applications, the functions may be distributed by different functional modules according to needs, that is, the internal structure of the system is divided into different functional modules to complete all or part of the functions described above.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes or modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (10)

1. The utility model provides a letter sorting system for intelligent storage, includes database and transfer robot, the database is used for the storage to predetermine the position information of each goods shelves in the warehouse and the independent serial number of goods shelves, the database still is used for the information of the commodity of depositing on each goods shelves, transfer robot is used for adjusting the commodity on each goods shelves, its characterized in that, letter sorting system still includes:

the system comprises an order acquisition module, a data processing module and a data processing module, wherein the order acquisition module is configured to access background data of a shop and acquire the background data, and the background data comprises order information of the shop;

the first extraction module is configured to extract order transaction time from the order information and further extract order information within preset time;

the second extraction module is configured to extract the commodity information in the order information;

the counting module is configured to extract the number of the commodities in the order information and further count the shipment volume of each commodity within preset time;

a third extraction module configured to extract position information of a shelf on which each commodity is placed;

a calculation module configured to calculate a distance between the location information of the shelf and a warehouse exit;

the sorting module is configured to arrange the commodities in a descending order according to the shipment quantity to obtain a first list and arrange the commodities in an ascending order according to the distance between the placement position and the warehouse exit to obtain a second list;

the first judging module is configured to judge whether the arrangement sequence of the commodities in the first list and the second list is the same;

and the carrying module is configured to adjust the distance relation between the placement positions of the commodities and the warehouse outlet according to the sequence in the first list.

2. A sorting system for smart warehousing as claimed in claim 1 wherein: further comprising:

the second judging module is configured to judge whether the order information comprises a goods returning and changing condition;

and the counting submodule is configured to delete the shipment quantity of repeated shipment of the commodities in the same order information when the order information has the condition of returning the commodities.

3. A sorting system for smart warehousing as claimed in claim 1 wherein: further comprising:

the fourth extraction module is configured to extract the commodities which are different from the commodities in the first list in sequence from the second list and set the commodities as target commodities;

a fifth extraction module configured to extract, among the target commodities, a first target commodity that is most front in the first list;

a fifth extraction sub-module configured to extract, among the target commodities, a second target commodity that is most advanced in the second list.

4. A sorting system for smart warehousing as claimed in claim 3 wherein: further comprising:

a sixth extraction module configured to extract, among the target commodities, a third target commodity that is most posterior in the first list;

a sixth extraction sub-module configured to extract, among the target commodities, a fourth target commodity that is most posterior in the second list;

and a carrying sub-module configured to exchange the first target article with the second target article and exchange the third target article with the fourth target article.

5. A sorting system for smart warehousing as claimed in claim 3 wherein: further comprising:

and the updating module is configured to update the arrangement sequence of the target commodities in the second list after the placement positions of the target commodities are adjusted.

6. The operating method of a sorting system for smart storage according to any of claims 1-5, characterized in that it comprises the following operating steps:

s101: accessing background data of a shop and acquiring the background data, wherein the background data comprises order information of the shop;

s102: extracting order transaction time from the order information, and further extracting order information within preset time;

s103: extracting commodity information in the order information;

s104: extracting the number of commodities in the order information, and further counting the shipment volume of each commodity within preset time;

s105: extracting position information of a goods shelf on which each commodity is placed;

s106: calculating the distance between the position information of the shelf and the warehouse exit;

s107: arranging the commodities in a descending order according to the delivery quantity to obtain a first list, and arranging the commodities in an ascending order according to the distance between the placement position and the warehouse exit to obtain a second list;

s108: judging whether the arrangement sequence of the commodities in the first list and the second list is the same;

s109: if not, the distance relation between the placing positions of the commodities and the warehouse outlet is adjusted according to the sequence in the first list.

7. The method of claim 6, wherein the method comprises the steps of:

s104 further comprises:

judging whether the order information comprises a goods returning and changing condition;

if yes, when the goods belong to the condition of goods return, the goods in the order information are not counted into the goods output amount;

and when the goods are changed, only the single shipment volume is counted for the goods in the order information.

8. The method of claim 6, wherein the method comprises the steps of:

s109 further includes:

extracting commodities which are different from the commodities in the first list in sequence from the second list and setting the commodities as target commodities;

extracting first target commodities which are most front in a first list from the target commodities;

extracting a second target commodity which is most front in a second list from the target commodities;

and exchanging the positions of the first target commodity and the second target commodity.

9. The method of claim 8, wherein the method further comprises the steps of:

further comprising:

extracting a third target commodity which is the rearmost in the first list from the target commodities;

extracting a fourth target commodity which is the most rear in the second list from the target commodities;

and exchanging the position of the third target commodity with the position of the fourth target commodity.

10. The method of claim 8, wherein the method comprises the steps of: further comprising:

and updating the arrangement sequence of the target commodities in the second list after the placement positions of the target commodities are adjusted.

Images