CN111091322A

CN111091322A - Management method of intelligent warehousing platform based on RFID

Info

Publication number: CN111091322A
Application number: CN201911240101.5A
Authority: CN
Inventors: 张永强
Original assignee: Nantong Zhongshi Textile Trading Market Co ltd
Current assignee: Nantong Zhongshi Textile Trading Market Co ltd
Priority date: 2019-12-06
Filing date: 2019-12-06
Publication date: 2020-05-01

Abstract

The invention discloses a management method of an intelligent warehousing platform based on RFID, which relates to the technical field of warehousing management and aims to solve the technical problems that the existing warehousing management needs a large amount of operators to participate and the efficiency is low, and the technical scheme is characterized by comprising the following steps: s100, establishing a warehousing database of a warehousing platform, and butting the warehousing database with a transaction database through a computer; s200, warehousing goods; receiving goods information, receiving goods, writing the goods information into the RFID label and fixing the goods on the corresponding goods; storing the goods on a goods shelf, and uploading corresponding information of the goods shelf and the goods; s300, checking the goods; checking the correspondence between the goods information and the goods shelf information through an RFID reader, checking the goods state and uploading the inventory information; s400, goods are delivered out of the warehouse; and determining goods to be delivered out of the warehouse, scanning the RFID label for final confirmation before loading, uploading delivery information after confirming no errors, and automatically generating a delivery bill. The effect of greatly improving the management efficiency of the warehouse management system is achieved.

Description

Management method of intelligent warehousing platform based on RFID

Technical Field

The invention relates to the technical field of warehousing management, in particular to a management method of an intelligent warehousing platform based on RFID.

Background

The warehousing system is an important tool for finely managing warehouses, and the large workload of warehouse management can be solved and the transparent management can be enhanced through the implementation of the warehousing system.

The RFID is a wireless radio frequency identification technology, which is a non-contact automatic identification technology, can automatically identify a target object and acquire related data through a radio frequency signal, does not need manual intervention in identification work, can work in various severe environments, can also identify a high-speed moving object and can simultaneously identify a plurality of labels, is quick and convenient to operate, and can be used for controlling, detecting and tracking the object.

The prior Chinese patent with the publication number of CN105809385A discloses a warehouse management system, which comprises a central microprocessor, and a warehouse entry management module, a warehouse storage management module, an ex-warehouse management module, an order processing module, an order query module, an input module, a display module, a data storage module, a data comparison and analysis module and a remote communication module which are connected with the central microprocessor, wherein the remote communication module is respectively connected with a supplier terminal and a seller terminal. The invention provides a full-flow management solution for an enterprise warehouse by an enterprise warehouse management system, which covers various businesses of an enterprise, such as utilizing a bar code identifier to read label information of wine boxes stuck on warehoused wine boxes, and performing warehouse check, material warehousing and distribution, finished product warehousing and shipment, warehouse socialization and management of various warehouse types (three-dimensional warehouse and planar warehouse).

The existing warehouse management system needs a large amount of manual hand-held laser scanning systems to perform optical scanning so as to check the goods, but the existing warehouse management system needs a large amount of operators to participate in the work, so that the efficiency is low, and the improvement is needed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a management method of an intelligent warehousing platform based on RFID, which has the advantage of greatly improving the management efficiency of a warehousing management system.

In order to achieve the purpose, the invention provides the following technical scheme:

a management method of an intelligent warehousing platform based on RFID is characterized in that: comprises the following steps:

s100, establishing a warehousing database of a warehousing platform, and butting the warehousing database with a transaction database of a transaction platform through a computer;

s200, warehousing goods; receiving information of goods to be stored through a computer, receiving the goods, confirming the information of the goods and the authority of the goods and automatically generating a stock list; writing goods information into the RFID tags, and fixing the RFID tags on corresponding goods; then, storing the goods on a goods shelf, and uploading corresponding information of the goods shelf and the goods to a storage database;

s300, checking the goods; checking the correspondence between the goods information and the goods shelf information through an RFID reader, checking the goods state and uploading the checking information to a warehousing database in time;

s400, goods are delivered out of the warehouse; and determining goods to be delivered out of the warehouse, scanning RFID tags on the goods through a PDA before the goods are loaded out of the warehouse for final confirmation, uploading delivery information to a storage database after the goods are confirmed to be correct, and automatically generating a delivery bill.

Through adopting above-mentioned technical scheme, use the RFID label as the label of goods and read the ware through RFID and carry out automatic reading, improved the accuracy of checking the discernment to the goods, meanwhile, operating personnel only need read the ware with RFID and take goods shelves department to discern a plurality of labels, can realize the check checking of goods through reading the RFID label on the goods shelves and on the goods, so just can realize the check to whole warehouse one day alone, practiced thrift the cost of manpower. And because the warehousing database aiming at the warehousing platform is established, the transaction, the account making and the warehousing of the whole warehousing are transferred to the online, and the corresponding information of the goods shelf and the goods is uploaded to the warehousing database, the management and the counting of the data and the goods in the whole warehousing platform are more convenient. By the management method, manual account making, electronic newspaper and paper documents can be abandoned, and all records can be called by accessing the warehousing database, so that the cost of warehousing management is greatly saved, and the efficiency of warehousing management is greatly improved.

Further, step S200 further includes the following steps:

s210, the goods information comes from a trading platform or a warehousing order of a customer; the computer stores all the goods information needing warehousing in a warehousing database to be called;

s220, checking and confirming the goods before warehousing and determining the attributes of the goods, writing the goods information into the RFID tag through the RFID reader-writer, fixing the RFID tag on the goods and uploading the goods information to a warehousing database;

s230, classifying the goods according to the attributes of the goods, and sequentially storing the goods on shelves which are far from the warehouse entrance from the near according to the sequence of the inflammability of the goods from large to small;

s240, the goods are conveyed to the appointed goods shelf according to the calculated shortest path, the corresponding information of the goods and the goods shelf is uploaded to a storage database, and a computer automatically generates a stock bill according to the goods information.

By adopting the technical scheme, before goods are put in storage, the goods are checked and the attributes of the goods are confirmed, so that different kinds of goods can be conveniently distinguished and stored, and then various information including the attributes of the goods is stored in the RFID tags of the goods for follow-up inspection and ex-warehouse inspection, and the phenomenon of goods mixing or wrong delivery caused by errors of operators is reduced. In the warehousing process, the corresponding relation between the goods and the goods shelf is recorded and uploaded to a warehousing database through a forklift, so that the online management of a computer on a warehousing platform is facilitated.

Further, the information corresponding to the goods and the goods shelf in the step S240 is read by the RFID reader installed between the fork jaws of the forklift and uploaded by the wireless communication module, and the RFID reader reads the RFID tags on the goods shelf and the goods and uploads the RFID tags to the warehouse database by the wireless communication module.

Through adopting above-mentioned technical scheme, install RFID between fork truck's fork claw and read the ware and cooperate with RFID communication connection's wireless communication module, can read and discern the RFID label on goods and the goods shelves and can pass through wireless communication module with the corresponding information on goods and the goods shelves and upload to the storage database to realized the automated inspection and the automatic corresponding information that upload to storage database to goods and goods shelves corresponding information, the storage database of being convenient for marks the position of goods.

Further, the step S200 further includes the following steps:

and S250, under the condition that the utilization rate of the goods shelves is low, the same batch of goods needs to be distributed to a plurality of goods shelves for storage, the goods shelves needing to be placed are calculated by the computer, the information of the goods shelves is sent to a forklift driver, the forklift transports the goods to the corresponding goods shelves for storage, and the corresponding position information is uploaded to a warehousing database.

Through adopting above-mentioned technical scheme, when certain goods shelves remaining storage space was not enough to deposit same batch of goods, need unpack same batch of goods apart, store at the goods shelves of difference respectively, will collect the corresponding information of a plurality of goods shelves and the goods of same batch of goods simultaneously to manage same batch of goods, the storage space in the warehouse of omission and make full use of when preventing to store has improved the utilization ratio in warehouse.

Further, step S300 includes the following sub-steps:

s310, the computer calculates the shortest path according to the positions of the goods shelves, then the path is sent to a forklift driver, and an operator drives the forklift to each goods shelf;

s320, reading the RFID label of the goods shelf and the RFID of the goods by the RFID reader on the forklift, and checking whether the RFID labels and the RFID of the goods correspond to each other;

s330, the operator checks the quality of the goods, takes pictures on site and uploads the checking information and the pictures to a warehousing database.

By adopting the technical scheme, the operator drives the forklift to drive to the corresponding goods shelf according to the route indicated by the computer, and the goods are checked. Whether the actual corresponding relation between the goods and the goods shelf is consistent with that in the warehousing database or not can be checked in the checking process, whether the corresponding relation between the goods and the goods shelf is changed or not is checked in the ex-warehousing process, goods mixing in the warehousing process is prevented, and then checking information after checking is uploaded to the warehousing database to automatically generate a checking log.

Further, the inventory information includes the cargo integrity condition, the actual quantity of the cargo, and the actual position of the unpacking storage.

By adopting the technical scheme, the checking personnel also check the integrity state of the goods in the process of checking the goods and check whether the goods are damp and mildewed; and the actual quantity of the goods is also checked, so that the shortage of the quantity of the goods in each package when the delivery quantity is specified is prevented.

Further, step S400 further includes the following sub-steps:

s410, determining the information of the goods to be delivered according to the transaction order acquired by the computer, and accurately obtaining a specific goods shelf and a specific storage position;

s420, the computer accesses the warehousing database, reads information of the goods shelf and the goods and accesses goods authority in the warehousing database;

s430, when the goods authority is that the goods can be taken out of the warehouse, the goods shelf and the goods information are sent to a forklift driver, the forklift drives to the corresponding goods shelf to take the goods out, and the information of the corresponding goods shelf is uploaded to a warehouse database; when the goods authority is frozen, the goods cannot be transferred;

s440, the delivery personnel upload delivery information to a warehousing database after inspecting the goods to be delivered through the PDA, the computer automatically calculates warehousing time after receiving the delivery information, and the warehousing cost is calculated according to warehousing attributes.

By adopting the technical scheme, when goods need to be taken out of the warehouse, the computer accesses the warehouse database and checks the authority of the goods, so that the goods are frozen in the warehouse platform when the goods need to be frozen by a goods owner, and the ownership rights and interests of the goods owner are ensured. Meanwhile, the operator conducts ex-warehouse inspection on the goods when the goods are out of the warehouse, and goods of the goods are prevented from being mixed. And simultaneously, the computer automatically generates a delivery bill and calculates the storage cost.

Further, step S440 is followed by step S450: the computer sends the delivery information to the shipper and the receiver through the network after receiving the delivery information, and sends the warehousing expense information to the corresponding expense undertaker according to the transaction information.

By adopting the technical scheme, after goods are delivered out of the warehouse, the computer sends the delivery information to the goods owner and the receiving party in time, so that the goods owner is reminded of being delivered out of the warehouse in time and the receiving party is reminded of checking and accepting in time. Meanwhile, the storage cost is sent to a cost undertaker according to the contract requirement, so that the storage cost is prompted in time.

Further, the step S400 is followed by the following steps:

s500, when a plurality of vehicles simultaneously transport goods and need to be put in or out of a warehouse, booking and queuing are carried out, the computer carries out queuing on all orders according to the time sequence, RFID labels of the corresponding goods are issued to corresponding drivers, and the drivers in the parking lot are reminded when the corresponding numbers are issued.

By adopting the technical scheme, the reservation queuing system can queue a plurality of drivers needing to be put in and taken out of a warehouse, so that originally disordered vehicle scheduling can be carried out to the specified positions one by one according to the sequence of numbers to be put in and taken out of the warehouse. In the process of warehousing or ex-warehouse, the current cargo information of the driver can be known only by reading the RFID tag taken by the driver, so that the efficiency of warehousing and ex-warehouse is improved.

Further, the reminding manner mentioned in step S500 is: displaying the currently loaded vehicle license plate number, the corresponding library number and the specific position to a driver through a screen; broadcasting the current freight car license plate number and the current storage position to be loaded to a driver in the parking lot; and a short message transmitter connected with the computer transmits a short message to a mobile phone of a driver corresponding to the order to inform the driver of loading and unloading in time.

By adopting the technical scheme, the driver is prompted by various means, so that the driver can timely know the own queuing process in the shortest time, the response efficiency of the driver is improved, the response time of the driver is shortened, and the warehousing and ex-warehouse efficiency of the warehousing platform is improved. Meanwhile, the driver can rest slightly in the period, so that the safe transportation of goods is facilitated.

In conclusion, the invention has the following beneficial effects:

the warehousing platform improvement management method is based on the RFID technology, and can flexibly and efficiently carry out comprehensive management on warehoused goods from warehousing to warehousing and then to ex-warehouse, so that the management efficiency is improved; and through online operation, the realization of the butt joint with an online trading platform is facilitated; the labor participation is reduced, the goods mixing caused by manual errors is reduced, the labor cost is reduced, and the data unification management is facilitated.

Drawings

Fig. 1 is a schematic overall structure diagram of a management method of an RFID-based smart warehousing platform in an embodiment;

FIG. 2 is a schematic diagram illustrating the detailed steps of step S200 in FIG. 1;

FIG. 3 is a schematic diagram illustrating the detailed steps of step S300 in FIG. 1;

fig. 4 is a schematic diagram illustrating a specific step of step S400 in fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b):

a management method of an RFID-based smart warehousing platform, referring to fig. 1, includes the following steps:

s100, a warehousing and warehousing database of a warehousing platform is established, the warehousing database is established at the cloud end and can be accessed through a network, management authority and identity authentication are set, only the user passing the identity authentication has the management authority, other users can only access, and the identity authentication mode is account number and password verification or other authentication modes for ensuring information safety. And then the warehousing database is in butt joint with the transaction database of the transaction platform through a computer, and the transaction orders and the transaction information in the transaction database can be directly accessed from the warehousing database, so that the warehousing platform can be in seamless butt joint with the transaction platforms such as an external mall and the like.

S200, warehousing goods; receiving information of goods to be stored through a computer, receiving the goods, confirming the information of the goods and the authority of the goods and automatically generating a stock list; writing goods information into the RFID tags, and fixing the RFID tags on corresponding goods; then the goods are stored on the goods shelf, and the corresponding information of the goods shelf and the goods is uploaded to the warehousing database.

S300, checking the goods; the correspondence between the goods information and the goods shelf information is checked through the RFID reader, the goods state is checked, and the checking information is uploaded to the warehousing database in time.

S400, goods are delivered out of the warehouse; and determining goods to be delivered out of the warehouse, scanning RFID tags on the goods through a PDA before the goods are loaded out of the warehouse for final confirmation, uploading delivery information to a storage database after the goods are confirmed to be correct, and automatically generating a delivery bill. The PDA is a palm computer, and the embodiment selects an industrial PDA with an RFID reader-writer, a camera and a wireless communication module.

S500, when a plurality of vehicles transport goods to be put in or taken out of the warehouse at the same time, reserving and queuing are carried out. And the computer performs numbering on all the orders according to the time sequence and issues the RFID labels of the corresponding goods to corresponding drivers. When entering or leaving the warehouse, the driver reads the RFID tag for the corresponding responsible person, and then can know the information of the goods needing to enter or leave the warehouse. When the driver is arranged to the corresponding number, the driver in the parking lot is reminded, so that the driver can timely know to go to the warehouse for warehousing or ex-warehouse.

The reminding mode is as follows: the current loaded vehicle license plate number, the corresponding warehouse number and the specific position are displayed to a driver through a screen, the screen is an LED large screen, and a plane circuit diagram of the whole warehouse is displayed on the screen, so that the driver can conveniently find a path and indicate and shunt the path through marking the path by multiple colors; broadcasting the current freight car license plate number and the current storage position to be loaded to a driver in the parking lot by voice, and after the voice broadcasting is circularly broadcasted for three times, the driver is acquiescent by default, namely, the next order is continuously broadcasted; and finally, a short message is sent to a mobile phone of a driver corresponding to the order through a short message sender connected with the computer, and a person in charge sends the short message to the person in charge, so that the driver can conveniently acquire the message in time and load and unload the goods in time.

Referring to fig. 2, step S200 further includes the steps of:

s210, the goods information comes from a trading platform or a warehousing order of a customer on the Internet; the ordering details comprise warehousing quantity, warehousing time, owner information and goods types, and the computer stores all goods information needing warehousing in a warehousing database to be called.

S220, checking the goods before warehousing, confirming whether goods information and goods authority are true or not, determining the attributes of the goods, writing the goods information into the RFID tag through the RFID reader-writer, fixing the RFID tag on the goods through a binding belt, and uploading the data of the goods information through a mobile terminal, such as a PAD (PAD) by means of WIFI (wireless fidelity).

And S230, classifying the goods according to the attributes of the goods, and putting the goods of the same category together for uniform management. The goods are sequentially stored on the shelves from the near to the far away from the entrance of the warehouse according to the sequence of the inflammability of the goods from large to small.

S240, the computer calculates the shortest distance of the target shelf, then the goods are conveyed to the appointed shelf according to the calculated shortest path, the corresponding information of the goods and the shelf is uploaded to a storage database, the computer automatically generates a stock bill according to the goods information, and the stock bill is automatically transmitted back to the hands of a goods owner after being generated.

The corresponding information of the goods and the goods shelf in the step S240 is read through an RFID reader arranged between fork claws on the forklift and uploaded through a wireless communication module, the RFID reader reads RFID tags on the goods shelf and the goods and uploads the RFID tags to a storage database through the wireless communication module, and the wireless communication module is a WIFI module and is communicated with a computer and connected with the RFID reader to upload data.

S250, when the shelf usage rate is low, the remaining shelves cannot accommodate a batch of goods to be stored together, so that the same batch of goods needs to be distributed to a plurality of shelves for storage. The computer calculates the shelves to be placed, minimizes the distance between the shelves for storing the same batch of goods as much as possible, and sends the shelf information to the forklift driver. Fork truck transports the goods to corresponding a plurality of goods shelves and stores and upload the corresponding positional information of a plurality of goods shelves goods, marks simultaneously.

Referring to fig. 3, step S300 includes the following sub-steps:

and S310, calculating the shortest path according to the positions of the goods shelves by the computer, sending the path to a forklift driver, and checking by driving the forklift to each goods shelf by an operator.

S320, the RFID reader on the forklift reads the RFID label of the goods shelf and the RFID of the goods, and whether the goods correspond to the goods shelf or not and whether the goods on the actual goods shelf are consistent with the goods recorded in the warehousing database or not are checked.

S330, the operator checks the quality of the goods, checks the damp condition, whether the goods are mildewed or not and whether the quantity of the goods is sufficient or not, takes pictures on site through a camera on the PAD, and uploads the checking information and the pictures to a warehousing database. The inventory information includes the integrity of the goods, the actual quantity of the goods and the actual location of the unpackaged storage.

Referring to fig. 4, step S400 further includes the following sub-steps:

s420, the computer accesses the warehousing database, reads information of the goods shelves and the goods and accesses goods authority in the warehousing database. The goods authority is determined by the goods owner, when the goods owner wants to freeze the goods, a request is sent to the computer through the network, and the state of the goods is changed after the identity of the goods owner is confirmed by the computer, so that the goods can not be transferred due to the frozen state; when the goods need to be defrosted, the goods owner sends a defreezing request to the computer, and the computer changes the goods state after confirming the identity, so that the goods become the defrosted state and can be delivered out of the warehouse.

And S430, when the goods authority is warehouse-out, the goods shelf and the goods information are sent to the PDA on the hand of the forklift driver, the forklift drives to the corresponding goods shelf to take out the goods and upload the information of the corresponding goods shelf to the warehousing database, and the state of the goods shelf is replaced to be idle. When the goods authority is frozen, the goods cannot be transferred.

S440, the delivery personnel carry out investigation on the goods to be delivered out of the warehouse through the PDA, check whether the goods are consistent with the order, and upload delivery information to the warehousing database. After receiving the information, the computer automatically calculates the warehousing time, calculates the warehousing cost according to the warehousing attribute, and prints out the delivery order through the printer and pastes the delivery order on the goods.

Step S450 is further included after step S440: the computer sends the delivery information to the shipper and the receiver through the network after receiving the delivery information, and informs the shipper and the receiver that the goods have been delivered. And sending the warehousing expense information to a corresponding expense undertaking party according to the transaction information, wherein the expense undertaking party is generally recorded in a contract of a transaction database of the transaction platform, and if the contract is not recorded, the expense undertaking party is sent to an original goods owner by default and notifies the expense undertaking party of paying in time.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims

1. A management method of an intelligent warehousing platform based on RFID is characterized in that: comprises the following steps:

s100, establishing a warehousing database of a warehousing platform, and butting the warehousing database with a transaction database of a transaction platform;

s200, warehousing goods; receiving information of goods to be stored, receiving the goods, confirming the information of the goods and the authority of the goods and automatically generating a stock list; writing goods information into the RFID tags, and fixing the RFID tags on corresponding goods; then, storing the goods on a goods shelf, and uploading corresponding information of the goods shelf and the goods to a storage database;

2. The method for managing an RFID-based smart warehousing platform of claim 1, wherein: step S200 further includes the following steps:

3. The method for managing an RFID-based smart warehousing platform of claim 2, wherein: and in the step S240, the corresponding information of the goods and the goods shelf is read through an RFID reader arranged between the fork claws on the forklift and uploaded through a wireless communication module, and the RFID reader reads RFID tags on the goods shelf and the goods and uploads the RFID tags to a warehousing database through the wireless communication module.

4. The method for managing an RFID-based smart warehousing platform of claim 2, wherein: the step S200 further includes the following steps:

and S250, under the condition that the shelf utilization rate is low, distributing the same batch of goods to a plurality of shelves for storage, calculating the shelves to be placed by the computer, sending shelf information to a forklift driver, conveying the goods to the corresponding shelves for storage by the forklift driver, and uploading the corresponding position information to a warehousing database.

5. The method for managing an RFID-based smart warehousing platform of claim 4, wherein: step S300 includes the following substeps:

6. The method for managing an RFID-based smart warehousing platform of claim 5, wherein: the inventory information comprises the integrity condition of the goods, the actual number of the goods and the actual position of unpacking storage.

7. The method for managing an RFID-based smart warehousing platform of claim 1, wherein: step S400 further comprises the following sub-steps:

8. The method for managing an RFID-based smart warehousing platform of claim 7, wherein: step S450 is further included after step S440: the computer sends the delivery information to the shipper and the receiver through the network after receiving the delivery information, and sends the warehousing expense information to the corresponding expense undertaker according to the transaction information.

9. The method for managing an RFID-based smart warehousing platform of claim 1, wherein: the step S400 is followed by the following steps:

10. The method for managing an RFID-based smart warehousing platform of claim 9, wherein: the reminding manner mentioned in step S500 is: displaying the currently loaded vehicle license plate number, the corresponding library number and the specific position to a driver through a screen; broadcasting the current freight car license plate number and the current storage position to be loaded to a driver in the parking lot; and a short message transmitter connected with the computer transmits a short message to a mobile phone of a driver corresponding to the order to inform the driver of loading and unloading in time.