CN111498369A

CN111498369A - Third-party package warehousing and transferring method and system

Info

Publication number: CN111498369A
Application number: CN202010334417.7A
Authority: CN
Inventors: 黄鹏昌
Original assignee: Hurd International Logistics Co ltd
Current assignee: Hurd International Logistics Co ltd
Priority date: 2020-02-21
Filing date: 2020-04-24
Publication date: 2020-08-07
Anticipated expiration: 2040-04-24
Also published as: CN111498369B

Abstract

The invention provides a third-party parcel warehousing and transferring method and a third-party parcel warehousing and transferring system, which comprise the following steps: the method comprises the steps of acquiring third-party package order data, scanning order bar codes, synchronizing the order data including measuring scale weighing data to a warehousing system, automatically sorting a platform, processing problem pieces, performing normal piece warehousing and transportation, boxing and warehousing, moving warehouses and delivering from warehouses to an automatic warehousing and transportation system, solving a series of operations of third-party package order data synchronization problem pieces and package warehousing, solving the problems of large package quantity, difficulty in sorting, difficulty in tracking and easiness in error through automation equipment in a one-stop mode, reducing error rate, reducing warehouse labor requirements and greatly improving warehouse operating efficiency and quality.

Description

Third-party package warehousing and transferring method and system

Technical Field

The invention belongs to the technical field of logistics, and particularly relates to a third-party parcel storage and transfer method and system.

Background

At present, in the international logistics scene of small packages (the weight is less than 2KG, and the sum of the length, the width and the height is not more than 120CM), for example, after a large number of packages of customers are collected, in order to reduce the error rate, reduce the manpower requirement of a warehouse and improve the operation efficiency and the operation quality of the warehouse.

The method comprises the steps of obtaining order data in the form of an Excel file exported by a third-party system, manually receiving goods, measuring a ruler, weighing and sorting, registering the collected data, and manually making a delivery order according to delivery requirements during delivery operation.

Therefore, it is necessary to invent a method and a system for warehousing and transferring third-party parcels.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the storage and transportation method and the system for the third-party packages are used for solving the problems that package order data are synchronous, packages or boxes are put into a warehouse, and storage or delivery operation cannot meet the requirement for response in time and time, and errors are prone to occur in a large-cargo-volume scene.

The technical scheme adopted by the invention is as follows: the method comprises the steps of obtaining order data of a third party package, synchronizing the order data to a warehousing system and a warehousing transferring method; the warehousing system comprises a computer, a scanning gun, a handheld PAD device and an automatic sorting platform;

the operation steps of the third party parcel warehousing and transferring method and the third party parcel warehousing and transferring system are as follows:

s1, a third party packs for goods or unloads the goods, and checks whether the goods are problem goods, if the goods are problem goods, the goods are stacked to a problem goods area, and the other goods are normal goods;

s2, the normal piece processing, the acquisition of the order data of the third-party package, namely synchronizing the package order data from the third-party system to the warehousing system, and synchronizing the data by adopting a mode of combining automatic synchronization and/or manual import, wherein the automatic synchronization adopts a multi-level JSON data format and is synchronous through WEB API communication;

s3, synchronizing the order data to a warehousing system, and confirming the operation of parcel to warehouse by scanning the order bar code of the parcel with a scanning gun;

s4, the scanning package order bar code confirms that the warehouse drives the infrared automatic measuring scale equipment connected with the computer to start measuring scale, the measuring scale receives measuring scale data after the measuring scale is finished, and the measuring scale data is stored in a warehouse system database after being processed and combined with the order bar code data provided by the scanning gun;

s5, the package order bar codes are scanned, meanwhile, a Bluetooth weighing device is driven by a Bluetooth service module of the computer to weigh, and the weighing device combines the data with order bar code data and stores the data in a warehouse system database;

s6, after the weighing is finished, the automatic sorting platform acquires a destination warehouse and a local warehouse area which are bound by the warehousing system in advance, scanning and sorting are carried out according to the destination by adopting scanning bar codes, and the warehouse area where the package arrives is controlled; if the destination warehouse of the package is not the area bound with the local warehouse, the package is automatically transferred to an abnormal area and then is sorted again.

S7, connecting the handheld PDA equipment to a service server of the warehousing system through a wireless network, and directly operating boxing and warehousing;

s8, the boxing process is a binding process of a box and a package, the boxing operation is performed in a mode of scanning a bar code on the box firstly and then scanning the package to be boxed, the warehousing process is a binding process of a warehouse area and the box, and the warehousing operation is performed in a mode of scanning the bar code of the warehouse area firstly and then scanning the box to be warehoused;

s9, after the package packing is finished and the package packing is put into a warehouse, the package delivery goods are delivered out of the warehouse according to a delivery list, and the packages or boxes delivered out of the warehouse are scanned one by adopting a handheld PDA device;

s10, the delivery list of delivery is created by a background user, or the system automatically generates the delivery list according to the destination warehouse information bound by a preset supplier and the delivery amount in the warehouse, and automatically informs the supplier through a mail and a short message;

and S11, repeating the steps to finish the warehousing transfer of the third-party parcels.

Further, the package order information includes an order number, a tracking number, a destination country, a destination warehouse, or an order status.

Further scheme does, automatic sorting platform uses the drum-type to turn to the transmission band and sorts.

The further scheme is that the warehoused packages or boxes are moved by using PDA equipment.

The further proposal is that the computer checks the inventory according to the planker by establishing an inventory list and matching with PDA equipment according to the warehouse area.

Further, the problem piece processing comprises piece returning processing or normal piece processing.

The further scheme is that when the package is intercepted, the package can only enter a problem area to process the problem.

The system can confirm the attribution of the client of the package by displaying the photo of the problem part, the warehousing time, the order number, the tracking order number and the problem part description information.

The further scheme is that during the delivery, a delivery list is created for delivery operation, and delivery or delivery between warehouses can be selected.

The further scheme is that the delivery is selected to be directly delivered or moved to the pre-delivery first, and the subsequent real delivery is waited, namely, the delivered goods are prepared first, and the delivery is directly confirmed subsequently from the pre-delivery.

The invention has the substantive characteristics and the remarkable effects that: the method comprises the steps of acquiring third-party package order data, scanning order bar codes, synchronizing the order data including measuring scale weighing data to a warehousing system, an automatic sorting platform, a problem piece processing and normal piece warehousing and transferring method, boxing and warehousing, moving to a warehouse and ex-warehouse automatic warehousing system, solving a series of operations of third-party package order data synchronization problem pieces and package warehousing, solving the problems of large package quantity, difficulty in sorting, difficulty in tracking and easiness in error through one-stop automatic equipment, reducing error rate, reducing warehouse labor requirements and greatly improving warehouse operating efficiency and quality.

Description of the drawings:

FIG. 1 is a schematic diagram of the operation of the method and system of the present invention;

FIG. 2 is a schematic flow diagram of the process of the present invention;

FIG. 3 is a flow diagram illustrating the problem handling of the present invention;

fig. 4 is a schematic flow chart of the bin moving according to the present invention.

The specific implementation mode is as follows:

in order to more fully understand the technical content of the present invention, the technical solution of the present invention will be further described and illustrated with reference to the following specific embodiments, but not limited thereto.

Referring to fig. 1 to 4, a method and a system for warehousing and transferring third-party parcels include acquiring order data of third-party parcels, synchronizing the order data to a warehousing system and a warehousing and transferring method; the warehousing system comprises a computer, a scanning gun, a handheld PAD device and an automatic sorting platform;

s2, normal piece processing, and the acquisition of the order data of the third-party package, namely synchronizing the package order data from the third-party system to a warehousing system, synchronizing the data by adopting a mode of combining automatic synchronization and/or manual import, and synchronizing the automatic synchronization by adopting a multi-level JSON data format through WEBAPI communication;

s3, synchronizing order data to a warehousing system, and confirming the operation of parcel to warehouse by scanning the order bar code of the parcel with a scanning gun;

s4, scanning the order bar code of the package to confirm that the warehouse simultaneously drives an infrared automatic measuring device connected with a computer to start measuring, receiving measuring data after the measuring is finished, processing and combining the order bar code data provided by a scanning gun, and storing the order bar code data in a storage system database;

s5, scanning the order bar code of the package, driving a Bluetooth weighing device to weigh through a Bluetooth service module of the computer, combining the data with the order bar code data by the weighing device, and storing the data in a storage system database;

s9, after the package box is merged into the warehouse, the package delivery goods are delivered out of the warehouse according to a delivery list, and the packages or boxes delivered out of the warehouse are scanned one by adopting a handheld PDA device;

s10, creating a delivery order for delivery by a background user, or automatically generating the delivery order by the system according to preset destination warehouse information bound by a supplier according to the in-warehouse cargo quantity, and automatically notifying the supplier through a mail and a short message;

Further, the automated sorting platform uses a drum-type steerable conveyor belt to sort.

Further, the warehoused packages or boxes are subjected to a warehouse removal operation using the PDA device.

Further, the computer checks the inventory according to the planker by creating the inventory list and matching with the PDA equipment according to the warehouse area.

Further, the problem piece processing includes piece returning processing or normal piece processing.

Further, when the package is intercepted, the package can only enter the problem part area for problem part treatment.

Further, when the package is inquired in the warehouse state, a client can use a Web end problem piece inquiry mode of a computer and can claim the package, and the system confirms the attribution of the client of the package by displaying a photo of the problem piece, warehouse entry time, an order number, a tracking order number and problem piece description information.

Further, during delivery, a delivery list is created for delivery operation, and delivery or delivery between warehouses can be selected.

Further, the direct delivery is selected or the delivery is moved to the pre-delivery first, and the subsequent actual delivery is waited, namely, the delivered goods are prepared first, and the delivery is directly confirmed subsequently from the pre-delivery.

Further, the specific implementation technical scheme adopted by the invention is as follows:

package order data is synchronized from the third party system to the warehousing system.

The data are synchronized by combining automatic synchronization and manual import, and the automatic synchronization adopts a multi-level JSON data format to be synchronized through WEB API communication.

The method comprises the steps that a scanning gun is used for scanning a package order number bar code when a package is confirmed to a warehouse, and the scanning operation is the operation of confirming the package to the warehouse.

And scanning the order bar codes of the packages to confirm the warehouse and simultaneously driving infrared automatic measuring scale equipment connected with the same computer, wherein the computer is provided with the measuring scale equipment and a storage system for storage, the service of the measuring scale equipment is operated in a windows service mode, the service has the functions of driving the automatic measuring scale equipment to start measuring scale, receiving measuring scale data after the measuring scale is finished, combining the order bar code data provided by the scanning gun for processing and combining, and storing in a storage system database.

And next, scanning the package order bar codes, driving a Bluetooth weighing device to weigh through a Bluetooth service module (the Bluetooth module is connected with the Bluetooth weighing device) of the computer, enabling a weight stabilizing device to pass through the relay service of the warehousing system, combining the order bar code data, combining and storing the data in a database of the warehousing system.

The automatic sorting platform also adopts a bar code scanning mode to acquire the warehouse area to which the destination of the current parcel belongs, and directly controls the area where the parcel arrives.

And next, connecting the handheld PDA equipment to a server of the warehousing system through a wireless network, and directly operating boxing and warehousing. The packing process is a binding process of a box and a package, the packing operation is carried out in a mode of scanning a bar code on the box firstly and then scanning the package to be packed, the warehousing process is a binding process of a warehouse area and the box, and the warehousing operation is carried out in a mode of scanning the bar code of the warehouse area firstly and then scanning the box to be warehoused.

After the package bin is fully loaded into the warehouse, the package/bin determines the unique warehouse spatial location in the warehouse that is stored in real time by the PDA device into the warehouse system's database.

The packages/boxes may be transferred from one warehousing location to another according to the warehousing management requirements.

The delivery goods are determined according to delivery orders, each warehouse has independent order intercepting time, each warehouse reaches the order intercepting time, delivery order generation service running in a warehousing system server triggers and verifies whether goods in each destination warehouse in the current warehouse reach delivery standards, the standards are determined by the once-processed goods quantity of different destinations and logistics suppliers serving the destinations, and delivery orders are automatically generated and automatically notified to relevant contacts when the delivery order generation standards are reached.

The goods delivered from the warehouse are delivered from the warehouse strictly according to the delivery list, and the packages or boxes delivered from the warehouse are scanned one by adopting a handheld PDA device; when the package is scanned, whether the package is in the delivery order is verified, and when the box is scanned, whether all the packages in the box are in the delivery order is verified. Only all packages are packages of the delivery order and all packages of the delivery order have been scanned for normal delivery.

In order to solve the problem of long preparation work for large-volume delivery, the large-volume delivery can be delivered to a pre-delivery area according to the requirement during delivery, and pre-delivery preparation is well prepared for delivery of large-batch packages.

The invention has the substantive characteristics and the remarkable effects that: the method comprises the steps of obtaining order data of a third party package, scanning order bar codes, synchronizing the order data including measuring scale weighing data to a warehousing system, automatically sorting a platform, processing problem pieces, performing normal warehousing and transportation, boxing and warehousing, moving warehouses and delivering warehouses to an automatic warehousing and rotating system, solving a series of operations of synchronizing problem pieces of the order data of the third party package and putting packages into warehouses, solving the problems of large package quantity, difficulty in sorting, difficulty in tracking and easiness in error through one-stop automatic equipment, reducing error rate, reducing warehouse labor requirements and greatly improving warehouse operating efficiency and quality.

The above description is only a preferred embodiment of the present patent, and not intended to limit the scope of the present patent, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the specification and the drawings, and which are directly or indirectly applied to other related technical fields, belong to the scope of the present patent protection.

Claims

1. A third party parcel warehousing and transferring method and a third party parcel warehousing and transferring system are characterized in that: the method comprises the steps of obtaining order data of a third party package, synchronizing the order data to a warehousing system and a warehousing transferring method; the warehousing system comprises a computer, a scanning gun, a handheld PAD device and an automatic sorting platform;

s5, the package order bar codes are scanned, meanwhile, a Bluetooth weighing device is driven by a Bluetooth service module of the computer to weigh, and the weighing device combines data with order bar code data and stores the data in a warehouse system database;

2. The method and system for warehousing transfer of third party parcels according to claim 1, wherein: the package order information includes an order number, a tracking number, a destination country, a destination warehouse, or an order status.

3. The method and system for warehousing transfer of third party parcels according to claim 1, wherein: the automatic sorting platform uses the drum-type to turn to the transmission band and sorts.

4. The method and system for warehousing transfer of third party parcels according to claim 1, wherein: and the warehoused packages or boxes are subjected to warehouse moving operation by using PDA equipment.

5. The method and system for warehousing transfer of third party parcels according to claim 1, wherein: and the computer creates an inventory list and matches with the PDA equipment to check the inventory according to the planker and the warehouse area.

6. The method and system for warehousing transfer of third party parcels according to claim 1, wherein: the problem piece processing comprises piece returning processing or normal piece processing.

7. The method and system for warehousing transfer of third party parcels according to claim 1, wherein: when the package is intercepted, the package can only enter the problem area for problem part treatment.

8. The method and system for warehousing transfer of third party parcels according to claim 1, wherein: when the package is inquired in the warehouse state, a client can use a Web end problem piece inquiry mode of the computer and can claim the package, and the system confirms the attribution of the client of the package by displaying a photo of the problem piece, warehousing time, an order number, a tracking order number and problem piece description information.

9. The method and system for warehousing transfer of third party parcels according to claim 1, wherein: and during the delivery, a delivery list is created to carry out delivery operation, and delivery or delivery between warehouses can be selected.

10. The method and system for warehousing transfer of third party parcels according to claim 1, wherein: and the delivery is selected to be directly delivered or moved to a pre-delivery, and the subsequent real delivery is waited, namely, the delivered goods are prepared firstly, and the delivery is directly confirmed subsequently from the pre-delivery.