CN110659862B - Storage information processing method and system - Google Patents

Abstract

A method and system for processing warehouse information, comprising: warehousing operation of goods is carried out by warehousing operators under the instruction of the first VR glasses; the racking operator performs racking operation on the goods under the instruction of the second VR glasses; sorting operation personnel carry out goods sorting operation under the instruction of the third VR glasses; and the warehouse-out operation personnel carry out warehouse-out operation of the goods under the instruction of the fourth VR glasses. According to the method and the system, information needing to be processed in each link of warehouse operation is directly delivered to the front of an operator by using VR glasses in each link of the warehouse operation, so that the probability of information acquisition and understanding errors is reduced, and the operation efficiency is improved.

Description

Storage information processing method and system

Technical Field

The present application relates to the field of warehousing, and in particular, to a method and a system for processing warehousing information.

Background

The warehouse operation process nowadays comprises a warehouse management system, a transportation management system, an order management system, a financial management system and the like, and also comprises a plurality of clients, such as a driver end, a client and the like. A lot of information is transmitted among systems and various links of warehouse operation, operators at each post absorb a great deal of information of the links where the operators understand, and take the information of adjacent links into full consideration, so that the understanding error and omission of the information can be caused, the efficiency of logistics operation is reduced, and improvement is needed.

Disclosure of Invention

The technical problem to be solved by the application is to provide a warehousing information processing method and system capable of improving efficiency aiming at the defects of the prior art.

According to a first aspect of the present application, there is provided a method for processing warehousing information, comprising: warehousing operation of goods is carried out by warehousing operators under the instruction of the first VR glasses; the racking operator performs racking operation on the goods under the instruction of the second VR glasses; sorting operation personnel carry out goods sorting operation under the instruction of the third VR glasses; and the warehouse-out operation personnel carry out warehouse-out operation of goods under the instruction of the fourth VR glasses.

In a method to which the application relates, the indication of the first VR glasses comprises: a barcode identifying the cargo.

In a method to which the application relates, the indication of the second VR glasses comprises: recommending a racking route of the goods, and arranging racking operation time according to the busyness degree of warehouse operation; the operation of putting on the shelf of the operation personnel of putting on the shelf carry out the goods under the instruction of second VR glasses, still include: the operation personnel of putting on the shelf when the goods put on the shelf, sweep the sign indicating number through first VR glasses and confirm.

In a method to which the application relates, the indication of the third VR glasses includes: carrying out sorting navigation on the goods, and arranging sorting operation time according to the busyness degree of warehouse operation; the letter sorting operation personnel carry out under the instruction of third VR glasses the letter sorting operation of goods still includes: letter sorting operation personnel when the goods letter sorting, sweep the sign indicating number through third VR glasses and confirm and lower.

In a method to which the present application relates, the indicating of the fourth VR glasses comprises: identifying an ex-warehouse order, arranging an ex-warehouse operation task, and contacting a shipping vehicle; the operation of leaving warehouse of goods is carried out to the operating personnel that leaves warehouse under the instruction of fourth VR glasses, still includes: when goods are delivered, the delivery operation personnel scan through the fourth VR glasses to confirm the delivery time and delivery place of the goods.

According to a second aspect of the present application, there is provided a warehouse information processing system, comprising: the management system is used for storing information of goods; the first VR glasses are used for obtaining information of goods through the management system and indicating warehousing operation personnel to perform warehousing operation of the goods; the second VR glasses are used for obtaining information of the goods through the management system and indicating a person who works on the shelf to carry out the operation of putting the goods on the shelf; the third VR glasses are used for obtaining information of the goods through the management system and indicating sorting operators to perform sorting operation of the goods; and the fourth VR glasses are used for obtaining information of the goods through the management system and indicating the delivery operation of the goods by delivery operators.

In the system to which the present application relates, the first VR glasses are also used to identify a barcode of the cargo.

In a system to which the present application relates, the second VR glasses are further configured to: recommending a goods shelving route, arranging shelving operation time according to the busyness degree of warehouse operation, and scanning code confirmation when goods are shelved.

In a system to which the present application relates, the third VR glasses are further configured to: carrying out sorting navigation on the goods, and arranging sorting operation time according to the busyness degree of warehouse operation; when the goods are sorted, the goods are scanned, confirmed and placed on shelves.

In a system to which the present application relates, the fourth VR glasses are further configured to: identifying an ex-warehouse order, arranging an ex-warehouse operation task, and contacting a shipping vehicle; when goods are delivered from the warehouse, the time and place of delivery of the goods are confirmed by scanning.

Due to the adoption of the technical scheme, the beneficial effects of the application are as follows:

in the method and the system, the warehousing operation of the goods is performed by warehousing operators under the indication of the first VR glasses, the racking operation of the goods is performed by racking operators under the indication of the second VR glasses, the sorting operation of the goods is performed by sorting operators under the indication of the third VR glasses, and the ex-warehouse operation of the goods is performed by ex-warehouse operators under the indication of the fourth VR glasses, so that information to be processed in each link of the warehouse operation is directly delivered to the front of the operators by utilizing the VR glasses, the probability of wrong understanding of information acquisition is reduced, and the operation efficiency is improved.

Drawings

Fig. 1 is a flowchart of a warehousing information processing method according to an embodiment of the present application;

fig. 2 is a flowchart of a warehousing information processing method according to a second embodiment of the present application;

fig. 3 is a schematic structural diagram of a warehousing information processing system according to a third embodiment of the present application;

fig. 4 is a schematic structural diagram of a warehousing information processing system according to a fourth embodiment of the present application.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. The present application may be embodied in many different forms and is not limited to the embodiments described in the present embodiment. The following detailed description is provided to facilitate a more thorough understanding of the present disclosure, and the words used to indicate orientation, top, bottom, left, right, etc. are used solely to describe the illustrated structure in connection with the accompanying figures.

One skilled in the relevant art will recognize, however, that one or more of the specific details can be omitted, or other methods, components, or materials can be used. In some instances, some embodiments are not described or not described in detail.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning.

Furthermore, the technical features, aspects or characteristics described herein may be combined in any suitable manner in one or more embodiments. It will be readily appreciated by those of skill in the art that the order of the steps or operations of the methods associated with the embodiments provided herein may be varied. Thus, any sequence in the figures and examples is for illustrative purposes only and does not imply a requirement in a certain order unless explicitly stated to require a certain order.

The first embodiment is as follows:

as shown in fig. 1, one embodiment of the warehousing information processing method of the present application includes the following steps:

step 102: the warehousing operation of goods is carried out by the warehousing operator under the instruction of the first VR glasses (virtual reality glasses).

Step 104: the operation of putting on the shelf of goods is carried out to the operation personnel of putting on the shelf under the instruction of second VR glasses.

Step 106: the letter sorting operation personnel carry out the letter sorting operation of goods under the instruction of third VR glasses.

Step 108: and the warehouse-out operation personnel carry out warehouse-out operation of the goods under the instruction of the fourth VR glasses.

As shown in fig. 2, a specific embodiment of the warehousing information processing method of the present application includes the following steps:

step 202: the incoming vehicles enter the park where the warehouse is located.

The intelligent license plate recognition system at the entrance of the park can recognize the time of vehicle entering and exiting, shoot information of a vehicle head, a vehicle body, a driver and the like, and upload the information to the management system.

Step 204: and the warehouse management unit of the management system performs warehouse position matching.

The management system analyzes and processes the information and outputs comprehensive information of the goods.

Step 206: and warehousing operators perform warehousing operation by using the first VR glasses. And the warehousing operation personnel receives the comprehensive information of the goods by utilizing the first VR glasses and scans the bar codes of the goods. The first VR glasses can display multimedia information, sense vehicle information and transmit bar code information of warehoused goods back to the management system.

Step 208: and an order management unit of the management system distributes the information of the goods on the shelf position.

The information of the warehouse position on the shelf is transmitted to the warehouse management unit, the warehouse position information is updated in real time, and the information is in data butt joint and sharing with the order management unit. The management system updates and outputs the comprehensive information of the goods by utilizing the information of the shelf-loading positions.

Step 210: the racking operator utilizes the second VR glasses to perform racking operations.

The second VR glasses transmit the position information of the racking operators to the management system in real time by utilizing the self-contained GPS positioning and tracking functions, the management system generates a recommended route according to the position information, the racking operators receive the recommended route through the second VR glasses, the environment is utilized for rendering, and the route is set to be in a three-dimensional space mode, so that the racking operators can be placed in the real racking environment in advance, and the racking operation of cargoes can be rapidly performed. The operator can also scan the information of the on-shelf position and transmit the information to the management system by using the scanning function of the glasses. The management system can also arrange the shelving operation time according to the busyness degree of the warehouse operation through calculation.

Step 212: and the warehousing management unit updates the information after shelving.

The warehouse management unit transmits the warehouse location state information to the management system, the management system distributes the information of shelving, and the information of the warehouse location after shelving is updated in real time. And the scheduling management unit transmits the rest positions of the warehouse operation to the management system in real time, and the management system distributes operation time.

Step 214: the letter sorting operation personnel utilize the third VR glasses to carry out the letter sorting operation.

The third VR glasses transmit the position information of the sorting operators to the management system in real time by utilizing the GPS positioning and tracking functions, generate a recommended route according to the position of the goods to be sorted, receive the recommended route by the sorting operators, perform off-shelf operation on the goods to be sorted, and transmit the information of the sorted goods to the management system by scanning codes by utilizing the scanning function of the third VR glasses.

Step 216: and the warehouse-out operator utilizes the fourth VR glasses to carry out warehouse-out operation.

The order management unit uploads information such as order distribution time, place, destination and the like to the management system. And the dispatching management unit uploads the information of the license plate, the driver and the like of the delivery vehicle to the management system. The intelligent license plate recognition system at the entrance of the park identifies the time when the vehicle leaves the gate, and shoots information such as a vehicle head, a vehicle body and a driver.

And the fourth VR glasses contact the driver of the shipping vehicle in advance to prepare for warehouse-out according to the sorting completion condition. And the ex-warehouse operators use the scanning function of the fourth VR glasses to transmit the bar code information of the ex-warehouse commodities back to the management system and confirm the ex-warehouse operation. And according to the ex-warehouse task instruction, carrying out ex-warehouse operation in the designated ex-warehouse operation area.

The warehousing information processing method aims at solving the problems that in the traditional warehouse logistics operation (warehousing and delivery, loading and unloading, carrying and sorting), a large amount of electronic or paper information needs to be processed, so that the logistics operation efficiency is low and the error rate is high.

Example two:

as shown in FIG. 3, the warehouse information processing system 300 of the present application, in one embodiment, comprises: management system 301, first VR glasses 302, second VR glasses 303, third VR glasses 304, and fourth VR glasses 305.

The management system 301 is used for storing information of goods.

And the first VR glasses 302 are used for obtaining information of the goods through the management system 301 and indicating warehousing operators to perform warehousing operation of the goods.

And the second VR glasses 303 are used for obtaining information of the goods through the management system 301 and instructing a person who works on the shelf to perform the operation of putting the goods on the shelf.

And the third VR glasses 304 are used for obtaining information of the goods through the management system 301 and instructing a sorting operator to perform a sorting operation of the goods.

And the fourth VR glasses 305 are configured to obtain information of the goods through the management system 301, and instruct the delivery operator to perform delivery operation of the goods.

As shown in fig. 3, another embodiment of a warehousing information processing system 400 of the present application includes: park entrance license plate intelligent recognition system 401, management system 402, first VR glasses 403, second VR glasses 404, third VR glasses 405 and fourth VR glasses 406.

The intelligent license plate recognition system 401 at the entrance of the park can recognize the entering and exiting time of vehicles when entering and exiting vehicles enter and exit, shoot information of a vehicle head, a vehicle body, a driver and the like, and upload the information to the management system 402.

A management system 402 for storing information of the goods. The method comprises the following steps: a warehouse management unit 402a, an order management unit 402b, and a schedule management unit 402c. The warehousing management unit 402a performs warehousing location matching and updates the location information in real time after goods are put on shelves. The order management unit 402b allocates the information of the stock-in-stock positions; information on delivery time, place, and destination of the ex-warehouse order is stored and uploaded to the management system 402 at the time of ex-warehouse. After the goods are put on shelf, the scheduling management unit 402c transmits the rest positions of the warehouse operation to the management system 402; when the vehicle leaves the warehouse, information on the license plate, the driver, and the like of the delivery vehicle is uploaded to the management system 402.

The first VR glasses 403 are used to instruct the warehousing operator to scan the bar code of the goods by using the received comprehensive information of the goods. The first VR glasses 403 can display multimedia information, sense vehicle information, and transmit barcode information of warehoused goods back to the management system 402.

The second VR glasses 404 are used to instruct the person who is on the shelf to perform the operation of on the shelf. The second VR glasses 404 transmit the position information of the racking operator to the management system 402 in real time by using the GPS positioning and tracking functions of the second VR glasses, the management system 402 generates a recommended route according to the position information, the racking operator receives the recommended route through the second VR glasses 404, and sets the route into a three-dimensional space mode by using environment rendering, so that the racking operator can be put in the real racking environment in advance, and the goods racking operation can be performed quickly. The racking operator can also scan the racking depot information to the management system 402 using the scanning function of the second VR glasses 404. The management system 402 can also schedule the shelving jobs by calculation based on how busy the warehouse jobs are.

The third VR glasses 405 are used to instruct the sorting operator to perform the sorting operation. The third VR glasses 405 transmit the position information of the sorting operator to the management system 402 in real time by using the GPS positioning and tracking function, the management system 402 generates a recommended route according to the storage location of the goods to be sorted, the sorting operator receives the recommended route, the goods to be sorted are put off the shelf, and the information of the sorted goods is transmitted to the management system 402 by scanning using the scanning function of the third VR glasses 405.

The fourth VR glasses 406 are used to instruct the ex-warehouse worker to perform the ex-warehouse operation. The fourth VR glasses 406 contact the driver of the shipping vehicle in advance for outbound preparation according to the picking completion. The ex-warehouse worker returns the barcode information of the ex-warehouse goods to the management system 402 using the scanning function of the fourth VR glasses 406, and confirms the ex-warehouse job. And according to the ex-warehouse task instruction, carrying out ex-warehouse operation in the designated ex-warehouse operation area.

The foregoing is a more detailed description of the present application in connection with specific embodiments thereof, and it is not intended to limit the present application to the details thereof. It will be apparent to those skilled in the art from this disclosure that many more simple deductions or substitutions can be made without departing from the spirit of the disclosure.

Claims (8)

1. A method for processing warehouse information, comprising:

the management system identifies the vehicle information of the incoming vehicles for analysis and processing, outputs the comprehensive information of the goods and performs warehouse location matching;

warehousing operation of goods is carried out by warehousing operators under the instruction of the first VR glasses; the warehousing operation personnel receives the comprehensive information of the goods by utilizing the first VR glasses, scans the bar codes of the goods, displays the multimedia information by utilizing the first VR glasses, senses the vehicle information and transmits the bar code information of the goods back to the management system;

the management system distributes information of the goods on the shelf position and updates and outputs comprehensive information of the goods;

the management system generates a recommended route according to the position information of the overhead operator; receiving a recommended route through second VR glasses, and setting the recommended route into a three-dimensional space mode by using environment rendering;

the racking operator performs racking operation on the goods under the instruction of the second VR glasses; the indication of the second VR glasses includes: recommending an racking route for the goods;

the management system updates the information of the stock position after shelving;

the management system generates a recommended route according to the position information of the sorting operators and the goods storage positions to be sorted;

the sorting operator performs sorting operation of the goods under the instruction of the third VR glasses; the indication of the third VR glasses includes: carrying out sorting navigation on the goods;

the warehouse-out operation personnel carry out warehouse-out operation on the goods under the instruction of the fourth VR glasses; the indication of the fourth VR glasses includes: identifying the delivery order, arranging the delivery task, and contacting the shipping vehicle.

2. The method of claim 1, wherein the indication of the second VR glasses further comprises: arranging the racking operation time according to the busyness degree of the warehouse operation;

the operation of putting on the shelf of goods is carried out to the operating personnel of putting on the shelf under the instruction of second VR glasses, still includes:

and when the operator on the shelf puts on the shelf, the operator on the shelf scans the code through the second VR glasses to confirm.

3. The method of claim 1, wherein the indication of the third VR glasses further comprises scheduling a sort job time based on a warehouse job busyness;

the letter sorting operation personnel carry out under the instruction of third VR glasses the letter sorting operation of goods still includes:

sorting operation personnel when the goods letter sorting, through the third VR glasses are swept the sign indicating number and are confirmed and lower.

4. The method of claim 1,

the operation of leaving warehouse of goods is carried out under the instruction of fourth VR glasses to the operating personnel of leaving warehouse still includes:

and when goods are delivered, the delivery operation personnel can confirm the delivery time and delivery place of the goods through the scanning of the fourth VR glasses.

5. A system for processing warehousing information, comprising:

the management system is used for storing information of goods; identifying vehicle information of the incoming vehicles, analyzing and processing the vehicle information, outputting comprehensive information of the cargos, and matching storage positions; distributing the information of the goods on the shelf position, and updating and outputting the comprehensive information of the goods; generating a recommended route according to the position information of the racking operator;

the first VR glasses are used for obtaining the information of the goods through the management system and indicating warehousing operation personnel to perform warehousing operation of the goods; warehousing workers receive the comprehensive information of the goods by using the first VR glasses, scan the bar codes of the goods, display multimedia information by using the first VR glasses, sense vehicle information and transmit the bar code information of the goods back to the management system; updating the information of the warehouse location after shelving; generating a recommended route according to the position information of the sorting operators and the goods storage positions to be sorted;

the second VR glasses are used for obtaining the information of the goods through the management system and indicating a racking operator to perform racking operation on the goods; receiving a recommended route, and setting the recommended route into a three-dimensional space mode by using environment rendering;

the third VR glasses are used for obtaining the information of the goods through the management system and indicating a sorting operator to perform sorting operation of the goods; carrying out sorting navigation on the goods;

the fourth VR glasses are used for obtaining the information of the goods through the management system and indicating the delivery operation of the goods to be delivered by delivery operation personnel; identifying the delivery order, arranging the delivery task, and contacting the shipping vehicle.

6. The system of claim 5, wherein the second VR glasses are further to: arranging the racking operation time according to the busyness degree of warehouse operation, and scanning the codes to confirm when goods are racking.

7. The system of claim 5, wherein the third VR glasses are further to: arranging sorting operation time according to the busy degree of warehouse operation; and when the goods are sorted, the goods are scanned, confirmed and put down.

8. The system of claim 5, wherein the fourth VR glasses are further to: when goods are delivered from the warehouse, the time and place of delivery of the goods are confirmed by scanning.

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