CN115545602A - Storage management method and system based on ultrahigh frequency RFID electronic tag - Google Patents

Abstract

The application relates to a warehouse management method and system based on an ultrahigh frequency RFID electronic tag, wherein the method comprises the following steps: acquiring goods information of goods based on a preset goods electronic tag, and uploading the goods information to a preset warehousing management platform; acquiring first shelf information of a first target shelf based on a preset shelf electronic tag, and uploading the first shelf information to a warehousing management platform; associating the goods information with the first shelf information to obtain warehousing information of the goods; acquiring warehouse-out information of the goods, and acquiring goods warehousing information of the goods based on the warehouse-in information and the warehouse-out information; acquiring the cargo category of the cargo based on the cargo warehousing information; and matching the goods with a second target shelf based on the goods category, acquiring second shelf information of the second target shelf, and associating the second shelf information with the goods information. The application has the effects of scientific storage management of the clothes and convenient cargo mobilization.

Description

Storage management method and system based on ultrahigh frequency RFID electronic tag

Technical Field

The application relates to the technical field of warehousing management, in particular to a warehousing management method and system based on an ultrahigh frequency RFID electronic tag.

Background

The warehouse management is to manage the warehouse and the materials stored in the warehouse, and store and keep the goods through the warehouse. The warehouse is a building and a site for storing articles, can be a house building, a large container, a cave or a specific site and the like, and has the functions of storing and protecting the articles; the term "storage" means storage for use, and means storage, delivery, and use, and is also referred to as storage when tangible articles are applied. The "warehousing" is the action of storing and storing the articles that are not used in time by using the warehouse.

At present, in the field of clothes, due to the fact that the mobility of the clothes is large, the types and the quantity of goods in a warehouse are various, the cost of clothes storage management is high, meanwhile, due to the fact that the randomness of clothes sales is large, the clothes with unsalable money and the clothes with unsalable money in the warehouse are placed in a mixed mode, and therefore the inconvenience in taking and placing is caused, and the logistics efficiency of the clothes is reduced.

Disclosure of Invention

In order to carry out scientific storage management on clothes and facilitate the transfer of goods, the application provides a storage management method and system based on an ultrahigh frequency RFID electronic tag.

In a first aspect, the application provides a warehousing management method based on an ultrahigh frequency RFID electronic tag, which adopts the following technical scheme:

a warehousing management method based on an ultrahigh frequency RFID electronic tag comprises the following steps:

acquiring goods information of goods based on a preset goods electronic tag, and uploading the goods information to a preset warehousing management platform;

acquiring first shelf information of a first target shelf based on a preset shelf electronic tag, and uploading the first shelf information to the warehousing management platform;

associating the goods information with the first shelf information to obtain warehousing information of the goods;

acquiring warehouse-out information of the goods, and acquiring goods warehousing information of the goods based on the warehouse-in information and the warehouse-out information;

acquiring the goods category of the goods based on the goods warehousing information;

matching a second target shelf for the goods based on the goods category, acquiring second shelf information of the second target shelf, and associating the second shelf information with the goods information.

By adopting the technical scheme, the goods information and the goods shelf information are correlated, so that the staff can conveniently and quickly position the goods to be mobilized; the goods category of the goods is determined through the warehousing information and the ex-warehousing information of the goods, and the goods can be distinguished; and a second target shelf suitable for goods is arranged according to the goods category, so that the goods can be classified and managed conveniently, the clothes in the warehouse can be scientifically managed, and the goods can be moved conveniently.

Optionally, the obtaining of the cargo information of the cargo based on the preset cargo electronic tag includes:

configuring a preset goods electronic tag for goods to be warehoused based on the goods information;

and acquiring the cargo information based on a preset first information reading and writing device and the cargo electronic tag.

By adopting the technical scheme, the cargo information is conveniently acquired.

Optionally, the obtaining first shelf information of the first target shelf based on the preset shelf electronic tag includes:

configuring a first shelf electronic tag for a first target shelf based on first shelf information of the first target shelf;

and acquiring the first shelf information based on the second information reading and writing equipment and the first shelf electronic tag.

By adopting the technical scheme, the shelf information can be conveniently acquired.

Optionally, the warehousing information includes warehousing time and warehousing quantity, the ex-warehouse information includes ex-warehouse time and ex-warehouse quantity, the goods warehousing information includes retention time, warehousing quantity and goods sales information, and the acquiring the ex-warehouse information of the goods includes:

judging whether the goods are delivered out of the warehouse or not based on a preset third information reading and writing device;

if the goods exist, acquiring the ex-warehouse quantity of the goods based on the goods electronic tag, and taking the ex-warehouse quantity as ex-warehouse information;

if not, acquiring the current time;

the acquiring the cargo warehousing information of the cargo based on the warehousing information and the ex-warehouse information comprises:

calculating the retention time based on the warehousing time and the current time;

and acquiring the goods sales ratio based on the ex-warehouse quantity and the warehousing quantity.

Through adopting above-mentioned technical scheme, can obtain the residence time and the goods proportion of selling of goods to be convenient for confirm the goods classification.

Optionally, a goods sales information threshold is preset, where the goods sales information threshold specifies a sales ratio range of mass-market goods, a sales ratio range of flat-market goods, and a sales ratio range of slow-market goods, the goods categories include mass-market goods, flat-market goods, and slow-market goods, and the obtaining the goods categories of the goods based on the goods warehousing information includes:

analyzing the retention time based on a preset retention time threshold value, and judging whether the retention time exceeds the preset retention time threshold value;

if the goods are beyond the preset range, determining the goods category of the goods as the lost goods;

analyzing the proportion of goods sold based on the threshold value of goods sold;

if the goods sales ratio is within the sales ratio range of the good, determining the goods category of the goods as good goods;

if the goods sales ratio is within the sales ratio range of the flat-selling goods, determining the goods category of the goods as the flat-selling goods;

and if the goods sales ratio is within the range of the sale ratio of the lost goods, determining the goods category of the goods as the lost goods.

By adopting the technical scheme, the cargo category is determined scientifically.

Optionally, the matching, based on the goods category, a second target shelf for the goods and acquiring second shelf information of the second target shelf includes:

determining the shelf category according to the goods category, and determining a second target shelf based on the shelf category, wherein the shelf category comprises a high-selling shelf, a low-selling shelf and a low-selling shelf;

second shelf information of the second target shelf is obtained.

By adopting the technical scheme, the corresponding goods shelves are distributed for the goods according to the goods category, so that the adaptability is strong.

Optionally, the associating the second shelf information with the goods information includes:

transferring the goods from the first target shelf to the second target shelf;

canceling the association relation between the first shelf information and the goods information;

and establishing the incidence relation between the second shelf information and the goods information.

By adopting the technical scheme, the incidence relation between the goods information and the goods shelf information is updated, and the possibility of positioning errors is reduced.

In a second aspect, the present application provides a warehousing management system based on an ultrahigh frequency RFID electronic tag, which adopts the following technical scheme:

a warehouse management system based on ultrahigh frequency RFID electronic tags comprises:

the goods information processing module is used for acquiring goods information of goods based on a preset goods electronic tag and uploading the goods information to a preset warehousing management platform;

the shelf information processing module is used for acquiring first shelf information of a first target shelf based on a preset shelf electronic tag and uploading the first shelf information to the warehousing management platform;

the association module is used for associating the goods information with the first shelf information to obtain warehousing information of the goods;

the analysis module is used for acquiring the delivery information of the goods, acquiring the goods warehousing information of the goods based on the warehousing information and the delivery information, and acquiring the goods category of the goods based on the goods warehousing information;

and the updating module is used for matching a second target shelf for the goods based on the goods category, acquiring second shelf information of the second target shelf and associating the second shelf information with the goods information.

By adopting the technical scheme, the goods information and the goods shelf information are correlated, so that the staff can conveniently and quickly position the goods to be mobilized; the goods category of the goods is determined through the warehousing information and the ex-warehouse information of the goods, and the goods can be distinguished; and a second target shelf suitable for the goods is arranged according to the goods category, so that the goods are classified and managed conveniently, the clothes in the warehouse are scientifically managed, and the goods are moved conveniently.

In a third aspect, the present application provides a terminal device, which adopts the following technical solution:

the terminal device comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein when the processor loads and executes the computer program, the warehousing management method based on the ultrahigh frequency RFID electronic tag is adopted.

By adopting the technical scheme, the storage management method based on the ultrahigh frequency RFID electronic tag generates a computer program, and the computer program is stored in the memory to be loaded and executed by the processor, so that the terminal equipment is manufactured according to the memory and the processor, and the use is convenient.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium, wherein a computer program is stored in the computer-readable storage medium, and when the computer program is loaded and executed by a processor, the storage management method based on the uhf RFID tag is adopted.

By adopting the technical scheme, the storage management method based on the ultrahigh frequency RFID electronic tag generates the computer program, and stores the computer program in the computer readable storage medium so as to be loaded and executed by the processor, and the computer program can be conveniently read and stored through the computer readable storage medium.

Drawings

Fig. 1 is a schematic overall flow chart of a warehousing management method based on an ultrahigh frequency RFID tag according to an embodiment of the present application.

Fig. 2 is a schematic diagram illustrating region division of a warehouse in a warehouse management method based on an ultrahigh frequency RFID tag according to an embodiment of the present application.

Fig. 3 is a schematic flowchart of steps S201 to S203 and steps S301 to S302 in a warehousing management method based on an uhf RFID tag according to an embodiment of the present application.

Fig. 4 is a schematic flowchart of steps S401 to S402 and steps S501 to S504 in a warehousing management method based on an uhf RFID tag according to an embodiment of the present application.

Fig. 5 is a schematic flowchart of steps S601-S602 in a warehousing management method based on an uhf RFID tag according to an embodiment of the present application.

Fig. 6 is a schematic flowchart of steps S701 to S703 in a warehousing management method based on an uhf RFID tag according to an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses a warehousing management method based on an ultrahigh frequency RFID electronic tag, and with reference to FIG. 1, the warehousing management method comprises the following steps:

s101, acquiring cargo information of the cargo based on a preset cargo electronic tag, and uploading the cargo information to a preset management platform;

s102, acquiring first shelf information of a first target shelf based on a preset shelf electronic tag, and uploading the first shelf information to a management platform;

s103, associating the goods information with the first shelf information to obtain warehousing information of the goods;

s104, acquiring warehouse-out information of the goods, and acquiring goods warehousing information of the goods based on the warehouse-in information and the warehouse-out information;

s105, acquiring the cargo category of the cargo based on the cargo warehousing information;

s106, matching the goods with a second target shelf based on the goods category, acquiring second shelf information of the second target shelf, and associating the second shelf information with the goods information.

The embodiment provides a warehouse for storing clothes, and after the clothes are produced from a factory, the clothes are firstly required to be stored in the warehouse so as to be convenient for taking goods from an off-line shop or an on-line shop and selling the goods.

After the production of the clothes is finished, the clothes are boxed, for example, the clothes are stacked in a container or a goods frame, the goods information of the clothes is counted and sorted, and an RFID electronic tag, namely a goods electronic tag, is configured for the goods frame, and the goods information of the clothes placed in the container or the goods frame is stored in the goods electronic tag. In the present embodiment, the goods information includes a clothing item number, a clothing code number, a clothing quantity, and the like.

Goods electronic tags sets up the side at the packing box, when goods vanning is accomplished the back, can read the goods information in this packing box through goods electronic tags through the first information reading and writing equipment that predetermines. In this embodiment, the first information reading and writing device may be a reader based on an ultrahigh frequency RFID technology, and may read the electronic tag of the cargo on the cargo box within a certain distance range.

Specifically, the first information reading and writing device is arranged at the entrance of the warehouse, and further can be installed on the security check rack and used for reading the cargo electronic tags on the cargo containers to obtain the cargo information in the cargo containers when a vehicle for transporting the cargo passes through the security check rack. For example, the vehicle is fork truck, and fork truck forks the packing box, and when the security check frame, the goods electronic tags on the packing box of first information read-write equipment on the security check frame carries out the communication to can read the goods electronic tags on all packing boxes on the fork truck.

When the first information reading and writing equipment reads the electronic tags of the goods, after the goods information of all goods on the forklift is obtained, the goods information is uploaded to a preset warehousing management platform, the warehousing management platform sorts and counts the goods information, and the goods information can be checked with factory information of clothes when the clothes leave a factory so as to check whether the goods are abnormal in the transportation process.

When goods are transported to a warehouse for storage, stacking operation of containers is carried out by a stacking trolley in the warehouse, firstly, a storage area of the goods needs to be planned, and a proper goods shelf is selected in the area for stacking. Specifically, in this embodiment, each shelf is configured with an RFID electronic tag, that is, a shelf electronic tag, shelf information of the shelf is configured in the shelf electronic tag, and the shelf information includes a shelf position and a shelf state, where the shelf position indicates position information of the shelf in the warehouse, for example, a-10-3-1, and respectively indicates that the position of the shelf is the 10 th, the 3 rd, the 1 st layer in the a area, and the shelf state indicates whether the shelf has already been stacked with goods, if goods have already been stacked, the goods state is a "full" state, and if not, the goods state is an "idle" state.

And a second information reading-writing device is arranged on the stacking trolley, can be a control terminal with a display screen and is used for sending a matching signal to the goods shelf electronic tag or the goods electronic tag and simultaneously reading goods shelf information in the goods shelf electronic tag.

In this embodiment, the warehouse is divided into a plurality of areas, which are, referring to fig. 2, a temporary storage area, an unsmooth selling area, a flat selling area and a late selling area, where the temporary storage area is used for temporarily storing latest outgoing clothes, the smooth selling area is used for storing unsmooth goods, the flat selling area is used for storing flat selling goods, and the late selling area is used for storing late selling goods.

In order to facilitate the transportation of the goods, the temporary storage area is arranged at the entrance of the warehouse, so that the transportation distance of the goods is reduced, and the goods are convenient to store; the free selling area is arranged at the outlet of the warehouse, so that goods can be conveniently taken through an off-line channel or an on-line channel; the flat selling area is more inside than the smooth selling area, and the goods are more conveniently taken; the stagnation area can be arranged at a place closer to the interior of the warehouse, so that space is provided for the mass-market goods or the flat-market goods.

When goods arrive at a warehouse for the first time, for example, newly designed clothes leave a factory, the sales condition of the clothes is not clear at the moment, so the clothes are firstly stored in the temporary storage area, after a period of sales, the sales condition is known, and the goods can be classified and stored according to areas.

Therefore, when the clothes leave the factory and enter the warehouse for the first time, the shelf in an idle state needs to be selected in the temporary storage area to be placed, and the shelf is used as a first target shelf. The selection of the first target shelf may be made in two ways.

In a first aspect, the second information reading and writing device is connected with the warehousing management platform and can receive data information sent by the warehousing management platform. In actual operation, the goods shelf in an idle state can be directly used as a first target goods shelf through the storage management platform, first goods shelf information of the first target goods shelf is sent to the second information reading and writing device, the first target goods shelf can be determined according to the first goods shelf information, the containers are stacked on the first target goods shelf, and at the moment, a worker driving the stacking trolley can click a stacking completion option on the second reading and writing device to complete stacking of the containers.

In the second aspect, the stacking trolley is provided with a second information reading and writing device, and the shelf electronic tags on the shelves are stored with shelf information, so that the shelf electronic tags can be read by the second information reading and writing device, and the shelf information can be acquired. In this embodiment, directly put things in good order to the idle goods shelves of buffers through the dolly of putting things in good order, regard this goods shelves as first target goods shelves to read first goods shelves information through the first goods shelves electronic tags on the first target goods shelves, and transmit first goods shelves information to the storage management platform through wireless transmission mode. At the moment, a worker driving the stacking trolley clicks a stacking completion option on the second information reading and writing device to complete stacking of the container.

In addition, after the containers are stacked, the goods information is associated with the first goods shelf information through the warehousing management platform to form warehousing information of the goods, wherein the warehousing information comprises warehousing time, warehousing quantity, warehousing style and the like.

Aiming at the first aspect, the working personnel can send goods information to the storage management platform through the second information reading and writing equipment, the storage management platform feeds back the first goods shelf information to the second information reading and writing equipment, and the working personnel can check through the display function on the second information reading and writing equipment so as to directly position.

According to the second aspect, when goods need to be located, a worker can directly send out a matching signal through the second information reading and writing device, and can obtain a feedback signal of the goods electronic tag or the first goods shelf electronic tag through the ultrahigh frequency RFID technology, so that the goods can be directly located.

In the storage process, the sales condition of the goods can be simply analyzed through the delivery condition of the goods, and therefore the delivery information of the goods needs to be acquired. Referring to fig. 3, the acquiring of the shipment information of the goods includes:

s201, judging whether goods are delivered out of a warehouse or not based on a preset third information reading and writing device;

s202, if the goods exist, the goods delivery time and the goods delivery quantity are obtained based on the goods electronic tags, and the delivery time and the delivery quantity are used as delivery information;

s203, if the current time does not exist, acquiring the current time;

in this embodiment, a third information reading and writing device is arranged at an exit of the warehouse, and the third information reading and writing device is used for reading the electronic tags of the goods on the containers taken out of the warehouse, so that the information of the goods in the containers can be acquired. Meanwhile, the third information reading and writing equipment is connected with the storage management platform, the read goods information can be sent to the storage management platform, and the storage management platform cancels the association relation of the goods shelves for storing the containers so as to show that the containers are delivered from the warehouse.

The third information reading and writing equipment can acquire the delivery information according to the goods information, wherein the delivery information comprises delivery quantity, delivery time, delivery style and the like. Therefore, the goods warehousing information of the goods can be acquired through the warehousing information and the ex-warehouse information, and in the embodiment, the goods warehousing information comprises the detention time, the warehousing quantity and the goods sales information. The method specifically comprises the following steps:

s301, calculating residence time based on the warehousing time and the current time;

s302, acquiring the goods sales ratio based on the ex-warehouse quantity and the in-warehouse quantity.

If the third information reading and writing device does not detect clothes of a certain style, namely the goods do not have the ex-warehouse condition and no sales history, the current time is obtained, and the retention time of the goods is calculated according to the current time and the in-warehouse time. If the third information reading and writing equipment detects a certain style of clothing, the number of the clothes taken out of the warehouse is obtained, and the clothing sales ratio of the style of clothing in the warehouse at the moment, namely the goods sales ratio, is obtained by calculating according to the number of the clothes taken out of the warehouse and the number of the clothes put in the warehouse. For example, if the warehousing quantity is 100 pieces and the ex-warehouse quantity is 40 pieces, the goods sales ratio is 40/100=40%.

It is worth mentioning that when obtaining the residence time and the goods sale ratio, the statistical time can be set based on the warehousing time, in this embodiment, the statistical time can be set to 60 days, that is, every 60 days, the goods in the temporary storage area of the warehouse are counted once, and the residence time and the goods sale ratio of the goods are calculated.

Specifically, the category of the goods of the money is determined by analyzing the retention time and the selling ratio of the goods, and in this embodiment, the defined categories of the goods include sold goods, sold goods and sold goods. Presetting a retention time threshold value through a warehousing management platform, and comparing and analyzing the retention time of a certain style of clothes with the retention time threshold value to obtain the goods category of the clothes; meanwhile, a goods sales information threshold value is also preset in the warehousing management platform, the goods sales information threshold value specifies a sale ratio range of good goods, a sale ratio range of good goods and a sale ratio range of late goods, and the goods sales ratio of the goods is analyzed to obtain the goods category of the clothing. Referring to fig. 4, the method specifically includes:

s401, analyzing the retention time based on a preset retention time threshold value, and judging whether the retention time exceeds the preset retention time threshold value;

s402, if the goods are exceeded, determining that the goods category of the goods is the lost goods.

For example, the retention time threshold is set to be 40 days, and when the goods are not delivered out of the warehouse for more than 40 days, the goods are determined to be the lost goods.

S501, analyzing the goods sale ratio based on the goods sale threshold value;

s502, if the goods sales ratio is in the range of the sales ratio of the good sold goods, determining the goods category of the goods as the good sold goods;

s503, if the goods sales ratio is within the sales ratio range of the flat-selling goods, determining the goods category of the goods as the flat-selling goods;

s504, if the goods sales ratio is in the sales ratio range of the lost goods, determining that the goods category of the goods is the lost goods.

For example, the sale proportion of the good goods is set to be 70% -100%, the sale proportion of the good goods is set to be 30% -69%, and the sale proportion of the bad goods is set to be 0% -30%. When the goods sales proportion of a certain type of clothes is 80%, the goods category of the certain type of clothes can be determined to be the good selling goods, and the classification method of the good selling goods and the bad selling goods is the same as that of the good selling goods.

After the goods category of the goods in the temporary storage area is obtained, the goods can be transferred to an unsmooth selling area, a flat selling area or a sluggish selling area according to the goods category. Referring to fig. 5, the method specifically includes:

s601, determining the shelf type according to the goods type, and determining a second target shelf based on the shelf type, wherein the shelf type comprises a high-selling shelf, a low-selling shelf and a low-selling shelf;

s602, second shelf information of a second target shelf is obtained.

The goods shelves in the selling area are selling goods shelves, and the goods shelves in the selling area are sluggish goods shelves. When the goods category is the good selling goods, the second target goods shelf is the good selling goods shelf; when the goods category is the flat-selling goods, the second target goods shelf is the flat-selling goods shelf, and when the goods category is the late-selling goods, the second target goods shelf is the late-selling goods shelf.

Goods in the temporary storage area of the warehouse are classified and stacked according to the goods category, and the stacking process is the same as the goods warehousing process, so the details are not repeated. Stacking the goods on the second target shelf, referring to fig. 6, the following steps are required:

s701, transferring goods from a first target shelf to a second target shelf;

s702, canceling the association relation between the first shelf information and the goods information;

and S703, establishing the association relationship between the second shelf information and the goods information.

Transferring the goods on the first target shelf to the second target shelf, canceling the association relationship between the first shelf information and the goods information, and establishing the association relationship between the goods information and the second shelf information of the second target shelf. Meanwhile, the positioning and searching method of the goods is the same as the above method, and therefore, the detailed description is omitted here.

The implementation principle of the warehousing management method based on the ultrahigh frequency RFID electronic tag in the embodiment of the application is as follows: the goods information is associated with the goods shelf information, so that the staff can conveniently and quickly position the goods to be moved; the goods category of the goods is determined through the warehousing information and the ex-warehousing information of the goods, and the goods can be distinguished; and a second target shelf suitable for the goods is arranged according to the goods category, so that the goods are classified and managed conveniently, the clothes in the warehouse are scientifically managed, and the goods are moved conveniently.

The embodiment of the application also discloses a warehouse management system based on hyperfrequency RFID electronic tags, includes: the system comprises a goods information processing module, a goods shelf information processing module, a correlation module, an analysis module and an updating module, wherein the goods information processing module is used for acquiring goods information of goods based on a preset goods electronic tag and uploading the goods information to a preset warehousing management platform; the shelf information processing module is used for acquiring first shelf information of a first target shelf based on a preset shelf electronic tag and uploading the first shelf information to the storage management platform; the association module is used for associating the goods information with the first goods shelf information to obtain warehousing information of the goods; the analysis module is used for acquiring warehouse-out information of the goods, acquiring goods warehousing information of the goods based on the warehouse-in information and the warehouse-out information, and acquiring goods categories of the goods based on the goods warehousing information; the updating module is used for matching the goods with a second target shelf based on the goods category, acquiring second shelf information of the second target shelf, and associating the second shelf information with the goods information.

The implementation of the warehousing management system based on the ultrahigh frequency RFID tag in the embodiment of the present application is the same as the implementation of the warehousing management method based on the ultrahigh frequency RFID tag in the above embodiment, and therefore, details are not repeated here.

The embodiment of the application further discloses a terminal device, which comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein when the processor executes the computer program, the warehousing management method based on the ultrahigh frequency RFID electronic tag in the embodiment is adopted.

The terminal device may adopt a computer device such as a desktop computer, a notebook computer, or a cloud server, and the terminal device includes but is not limited to a processor and a memory, for example, the terminal device may further include an input/output device, a network access device, a bus, and the like.

The processor may be a Central Processing Unit (CPU), and of course, according to an actual use situation, other general processors, digital Signal Processors (DSPs), application Specific Integrated Circuits (ASICs), field Programmable Gate Arrays (FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, and the like may also be used, and the general processor may be a microprocessor or any conventional processor, and the present application does not limit the present invention.

The memory may be an internal storage unit of the terminal device, for example, a hard disk or a memory of the terminal device, or an external storage device of the terminal device, for example, a plug-in hard disk, a Smart Memory Card (SMC), a secure digital card (SD) or a flash memory card (FC) equipped on the terminal device, and the memory may also be a combination of the internal storage unit of the terminal device and the external storage device, and the memory is used for storing a computer program and other programs and data required by the terminal device, and the memory may also be used for temporarily storing data that has been output or will be output, which is not limited in this application.

The storage management method based on the ultrahigh frequency RFID electronic tag in the embodiment is stored in a memory of the terminal device through the terminal device, and is loaded and executed on a processor of the terminal device, so that the terminal device is convenient to use.

The embodiment of the application also discloses a computer readable storage medium, and the computer readable storage medium stores a computer program, wherein when the computer program is executed by a processor, the warehousing management method based on the ultrahigh frequency RFID electronic tag in the above embodiments is adopted.

The computer program may be stored in a computer readable medium, the computer program includes computer program code, the computer program code may be in a source code form, an object code form, an executable file or some intermediate form, and the like, and the computer readable medium includes any entity or device capable of carrying the computer program code, a recording medium, a usb disk, a removable hard disk, a magnetic disk, an optical disk, a computer memory, a Read Only Memory (ROM), a Random Access Memory (RAM), an electrical carrier signal, a telecommunication signal, a software distribution medium, and the like.

The warehousing management method based on the ultrahigh frequency RFID tag in the above embodiments is stored in the computer-readable storage medium through the computer-readable storage medium, and is loaded and executed on the processor, so as to facilitate the storage and application of the method.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A warehouse management method based on an ultrahigh frequency RFID electronic tag is characterized by comprising the following steps:

acquiring goods information of goods based on a preset goods electronic tag, and uploading the goods information to a preset warehousing management platform;

acquiring first goods shelf information of a first target goods shelf based on a preset goods shelf electronic tag, and uploading the first goods shelf information to the warehousing management platform;

associating the goods information with the first shelf information to obtain warehousing information of the goods;

acquiring warehouse-out information of the goods, and acquiring goods warehousing information of the goods based on the warehouse-in information and the warehouse-out information;

acquiring the goods category of the goods based on the goods warehousing information;

matching a second target shelf for the goods based on the goods category, acquiring second shelf information of the second target shelf, and associating the second shelf information with the goods information.

2. The warehousing management method based on the ultrahigh frequency RFID electronic tag as claimed in claim 1, wherein the acquiring of the cargo information of the cargo based on the preset cargo electronic tag comprises:

configuring a preset goods electronic tag for goods to be warehoused based on the goods information;

and acquiring the cargo information based on a preset first information reading and writing device and the cargo electronic tag.

3. The warehousing management method based on the UHF RFID electronic tag as claimed in claim 2, wherein the obtaining of the first shelf information of the first target shelf based on the preset shelf electronic tag comprises:

configuring a first shelf electronic tag for a first target shelf based on first shelf information of the first target shelf;

and acquiring the first shelf information based on the second information reading and writing equipment and the first shelf electronic tag.

4. The warehousing management method based on the ultrahigh frequency RFID electronic tag as claimed in claim 1, wherein the warehousing information comprises warehousing time and warehousing quantity, the ex-warehouse information comprises ex-warehouse time and ex-warehouse quantity, the cargo warehousing information comprises retention time, warehousing quantity and cargo sales information, and the acquiring of the ex-warehouse information of the cargo comprises:

judging whether goods are delivered out of the warehouse or not based on a preset third information reading-writing device;

if the goods exist, acquiring the ex-warehouse quantity of the goods based on the goods electronic tag, and taking the ex-warehouse quantity as ex-warehouse information;

if not, acquiring the current time;

the acquiring the cargo warehousing information of the cargo based on the warehousing information and the ex-warehouse information comprises:

calculating the retention time based on the warehousing time and the current time;

and acquiring the goods sales ratio based on the ex-warehouse quantity and the in-warehouse quantity.

5. The warehousing management method based on the UHF RFID electronic tag as claimed in claim 4, wherein a goods sales information threshold is preset, the goods sales information threshold specifies a sale proportion range of good goods, a sale proportion range of fair goods and a sale proportion range of unsalable goods, the goods categories include good goods, fair goods and unsalable goods, and the acquiring the goods category of the goods based on the goods warehousing information comprises:

analyzing the retention time based on a preset retention time threshold value, and judging whether the retention time exceeds the preset retention time threshold value;

if the goods are beyond the preset range, determining the goods category of the goods as the lost goods;

analyzing the proportion of goods sold based on the threshold value of goods sold;

if the goods sales ratio is within the sale ratio range of the good goods, determining that the goods category of the goods is the good goods;

if the goods sales ratio is within the sales ratio range of the flat-selling goods, determining the goods category of the goods as the flat-selling goods;

and if the goods sales ratio is in the sales ratio range of the lost goods, determining the goods category of the goods as the lost goods.

6. The warehousing management method based on the UHF RFID electronic tag as claimed in claim 5, wherein the matching the goods with a second target shelf based on the goods category and the obtaining the second shelf information of the second target shelf comprises:

determining the shelf category according to the goods category, and determining a second target shelf based on the shelf category, wherein the shelf category comprises a high-selling shelf, a low-selling shelf and a low-selling shelf;

second shelf information of the second target shelf is obtained.

7. The UHF RFID tag-based warehouse management method according to claim 6, wherein the associating the second shelf information with the goods information comprises:

transferring the goods from the first target shelf to the second target shelf;

canceling the association relation between the first shelf information and the goods information;

and establishing the incidence relation between the second shelf information and the goods information.

8. A warehousing management system based on ultrahigh frequency RFID electronic tags is characterized by comprising:

the goods information processing module is used for acquiring goods information of goods based on a preset goods electronic tag and uploading the goods information to a preset warehousing management platform;

the shelf information processing module is used for acquiring first shelf information of a first target shelf based on a preset shelf electronic tag and uploading the first shelf information to the storage management platform;

the association module is used for associating the goods information with the first shelf information to obtain warehousing information of the goods;

the analysis module is used for acquiring the delivery information of the goods, acquiring the goods warehousing information of the goods based on the warehousing information and the delivery information, and acquiring the goods category of the goods based on the goods warehousing information;

and the updating module is used for matching a second target shelf for the goods based on the goods category, acquiring second shelf information of the second target shelf and associating the second shelf information with the goods information.

9. A terminal device comprising a memory, a processor and a computer program stored in the memory and being executable on the processor, characterized in that the method of any of claims 1-7 is used when the computer program is loaded and executed by the processor.

10. A computer-readable storage medium, in which a computer program is stored, which, when loaded and executed by a processor, carries out the method of any one of claims 1 to 7.

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