CN110826955A - Intelligent management method for warehouse materials - Google Patents

Abstract

The invention discloses an intelligent management method for storage materials, which comprises the following steps: s1, the warehouse server acquires the terrain area and the shelf distribution of the managed warehouse, and classifies the goods storage area; s2, the user inquires the goods from the warehouse, connects with the warehouse server, and obtains the information to check; s3, storing the goods in the warehouse by the user according to the divided areas in the step S1, and recording the change information of the corresponding goods in the warehouse server; s4, the user takes out the goods from the warehouse, inquires the goods information by accessing the warehouse server, takes out the goods according to the acquired information, and records the corresponding goods change information in the warehouse server; s5, the warehouse server acquires the environmental information in the warehouse in real time, receives the sensor information set in the warehouse and monitors the warehouse environment in real time; and S6, the warehouse server performs self-checking on the warehouse storage condition at regular time, checks the record to generate a report, and updates the storage information.

Description

Intelligent management method for warehouse materials

Technical Field

The invention relates to the technical field of warehouse management, in particular to an intelligent management method for warehouse materials.

Background

Warehouses are widely used by factories to provide storage space for goods in large quantities. In the traditional warehouse management and the warehouse entry and exit of goods, the manual cooperation with a computer is used for operation, the computer only plays a role of auxiliary work in the process, and the manual operation management has the condition of careless mistakes, so that the record is inaccurate; meanwhile, manual query is difficult, goods cannot be taken and placed in time, and the working efficiency is low; and some special goods need special condition to storage space, and traditional warehouse is difficult to realize the real time monitoring to the warehouse environment.

Disclosure of Invention

The invention aims to provide an intelligent storage material management method to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent management method for storage materials comprises the following steps,

s1, the warehouse server acquires the terrain area and the shelf distribution of the managed warehouse, and classifies the goods storage area;

s2, the user inquires the goods from the warehouse, connects with the warehouse server, and obtains the information to check;

s3, storing the goods in the warehouse by the user according to the divided areas in the step S1, and recording the change information of the corresponding goods in the warehouse server;

s4, the user takes out the goods from the warehouse, inquires the goods information by accessing the warehouse server, takes out the goods according to the acquired information, and records the corresponding goods change information in the warehouse server;

s5, the warehouse server acquires the environmental information in the warehouse in real time, receives the sensor information set in the warehouse and monitors the warehouse environment in real time;

and S6, the warehouse server performs self-checking on the warehouse storage condition at regular time, checks the record to generate a report, and updates the storage information.

Preferably, the user is connected with the warehouse server through an intelligent terminal, the intelligent terminal can be a smart phone, a tablet personal computer and a personal computer, and the intelligent terminal is in wireless connection with the warehouse server.

Preferably, in step S1, when the warehouse server divides the storage area for the goods according to the warehouse terrain, two factors are used; one is cargo flow and the other is storage difficulty; the goods with large flow and easy storage are divided at the front end of the warehouse, the goods with small flow and difficult storage are divided at the rear end of the warehouse, and other goods are divided in the middle of the warehouse.

Preferably, in step S1, the warehouse server divides the warehouse into a plurality of areas according to the terrain, and each area is assigned with a unique mark code; labeling the shelves in each area, each shelf being assigned a unique labeling code; each cargo is assigned a unique code label.

Preferably, in step S2, the information obtained by the user from the warehouse server includes the type of goods, the number of each kind of goods, and the location information of each kind of goods.

Preferably, in step S3, the recorded goods change information includes the types of the added goods, the number of the added goods, and the locations of the added goods, and the warehouse server updates the stored goods information according to the change information.

Preferably, in step S4, the recorded goods change information includes a type of goods taken out and a quantity of goods taken out, and the warehouse server updates the information of the goods taken out based on the change information.

Preferably, in step S5, the sensors arranged in the warehouse include a temperature sensor, a humidity sensor, and a smoke sensor, which are arranged in a group, and multiple groups are arranged in the warehouse and uniformly arranged to ensure that each angle is covered by one group of sensor data; the sensor is connected with the warehouse server to transmit data.

Preferably, in step S5, the warehouse server stores and determines the data transmitted by the sensor, so as to ensure the warehouse environment.

Preferably, in step S6, the warehouse server performs self-check on the total quantity of the goods in the warehouse according to the taking out and storing of the goods, and stores the total quantity of the goods as new data according to the check result; and generating a report for the detection result.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the warehouse is managed and controlled through the warehouse server, and the warehouse is intelligently managed; the warehouse is divided into areas, so that the storage is convenient; the goods taking and placing are recorded by the server, the data are updated automatically, the data are more accurate, and meanwhile, self-checking is set, so that the data are reliable; simultaneously, the sensor is arranged inside the warehouse, so that the storage environment inside the warehouse is guaranteed, and the goods can be conveniently stored.

Drawings

FIG. 1 is a flow chart of the steps of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: an intelligent management method for storage materials comprises the following steps,

s1, the warehouse server acquires the terrain area and the shelf distribution of the managed warehouse, and classifies the goods storage area;

s2, the user inquires the goods from the warehouse, connects with the warehouse server, and obtains the information to check;

s3, storing the goods in the warehouse by the user according to the divided areas in the step S1, and recording the change information of the corresponding goods in the warehouse server;

s4, the user takes out the goods from the warehouse, inquires the goods information by accessing the warehouse server, takes out the goods according to the acquired information, and records the corresponding goods change information in the warehouse server;

s5, the warehouse server acquires the environmental information in the warehouse in real time, receives the sensor information set in the warehouse and monitors the warehouse environment in real time;

and S6, the warehouse server performs self-checking on the warehouse storage condition at regular time, checks the record to generate a report, and updates the storage information.

Furthermore, the user is connected with the warehouse server through an intelligent terminal, the intelligent terminal can be a smart phone, a tablet personal computer and a personal computer, and the intelligent terminal is in wireless connection with the warehouse server.

Further, in step S1, when the warehouse server divides the storage area for the goods according to the warehouse terrain, two factors are used; one is cargo flow and the other is storage difficulty; the goods with large flow and easy storage are divided at the front end of the warehouse, the goods with small flow and difficult storage are divided at the rear end of the warehouse, and other goods are divided in the middle of the warehouse.

Further, in step S1, the warehouse server divides the warehouse into a plurality of areas according to the terrain, and each area is assigned with a unique mark code; labeling the shelves in each area, each shelf being assigned a unique labeling code; each cargo is assigned a unique code label.

Further, in step S2, the information obtained by the user from the warehouse server includes the type of goods, the quantity of each kind of goods, and the location information of each kind of goods.

Further, in step S3, the recorded goods change information includes the types of the added goods, the number of the added goods, and the locations of the added goods, and the warehouse server updates the stored goods information according to the change information.

Further, in step S4, the recorded goods change information includes the type of goods taken out and the number of goods taken out, and the warehouse server updates the information of the taken-out goods according to the change information.

Further, in step S5, the sensors arranged in the warehouse include a temperature sensor, a humidity sensor, and a smoke sensor, which are arranged in a group, and multiple groups are arranged in the warehouse and uniformly arranged, so as to ensure that each angle is covered by one group of sensor data; the sensor is connected with the warehouse server to transmit data.

Further, in step S5, the warehouse server stores and determines the data transmitted by the sensor, so as to ensure the warehouse environment.

Further, in step S6, the warehouse server performs self-check on the total quantity of the goods in the warehouse at regular time according to the taking out and storing of the goods, and stores the total quantity of the goods as new data according to the check result; and generating a report for the detection result.

The working principle is as follows: in step S1, the warehouse is divided into regions according to the terrain, and corresponding cargo storage regions are set according to the cargo type; storing the goods which have large goods flow and are easy to store at the front end of the warehouse, and dividing the goods which have small goods flow and are difficult to store at the rear end of the warehouse; the front end of the warehouse is convenient for taking and placing the goods, so that the efficiency of taking and placing the goods at the position can be improved; the position of the rear end of the warehouse is deeper, so that the warehouse is inconvenient to take and place and is just suitable for the characteristics of goods at the position; meanwhile, a string of independent codes is formed according to the area, the goods shelf and the goods, the identification is achieved, and the positions of the goods can be inquired from the server according to the codes. And step S2, the user is connected with the warehouse server through the mobile terminal to acquire the basic information of the goods and know the storage condition in the warehouse in time. Step S3 is similar to the process of step S4, and the user can store and retrieve the data obtained from the warehouse, and update the data to the warehouse server, so as to ensure the latest and effective data. In step S5, the environment in the warehouse is detected by the sensors, so as to ensure the environment of the warehouse and facilitate the storage of the goods, and the sensors detect the temperature, humidity and dust particle conditions in the warehouse, are arranged in multiple groups and mutually cover to ensure that each environment in the warehouse is monitored; in step S6, careless mistakes in the user' S use process are reduced through self-checking, and a report is generated, so that a subsequent user can conveniently search for problems according to specific situations, and careless mistakes are avoided from being generated again.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The intelligent warehouse material management method is characterized by comprising the following steps: comprises the following steps of (a) carrying out,

s1, the warehouse server acquires the terrain area and the shelf distribution of the managed warehouse, and classifies the goods storage area;

s2, the user inquires the goods from the warehouse, connects with the warehouse server, and obtains the information to check;

s3, storing the goods in the warehouse by the user according to the divided areas in the step S1, and recording the change information of the corresponding goods in the warehouse server;

s4, the user takes out the goods from the warehouse, inquires the goods information by accessing the warehouse server, takes out the goods according to the acquired information, and records the corresponding goods change information in the warehouse server;

s5, the warehouse server acquires the environmental information in the warehouse in real time, receives the sensor information set in the warehouse and monitors the warehouse environment in real time;

and S6, the warehouse server performs self-checking on the warehouse storage condition at regular time, checks the record to generate a report, and updates the storage information.

2. The intelligent storage material management method according to claim 1, characterized in that: the user is connected with the warehouse server through an intelligent terminal, the intelligent terminal can be a smart phone, a tablet personal computer and a personal computer, and the intelligent terminal is in wireless connection with the warehouse server.

3. The intelligent storage material management method according to claim 1, characterized in that: in step S1, the warehouse server divides the storage area of the goods according to the warehouse terrain according to two factors; one is cargo flow and the other is storage difficulty; the goods with large flow and easy storage are divided at the front end of the warehouse, the goods with small flow and difficult storage are divided at the rear end of the warehouse, and other goods are divided in the middle of the warehouse.

4. The intelligent storage material management method according to claim 1, characterized in that: in step S1, the warehouse server divides the warehouse into a plurality of areas according to the terrain, and each area is assigned with a unique mark code; labeling the shelves in each area, each shelf being assigned a unique labeling code; each cargo is assigned a unique code label.

5. The intelligent storage material management method according to claim 1, characterized in that: in step S2, the information obtained by the user from the warehouse server includes the type of goods, the number of each kind of goods, and the location information of each kind of goods.

6. The intelligent storage material management method according to claim 1, characterized in that: in step S3, the recorded goods change information includes the types of the added goods, the number of the added goods, and the locations of the added goods, and the warehouse server updates the stored goods information according to the change information.

7. The intelligent storage material management method according to claim 1, characterized in that: in step S4, the recorded goods change information includes the type of goods taken out and the number of goods taken out, and the warehouse server updates the information of the goods taken out according to the change information.

8. The intelligent storage material management method according to claim 1, characterized in that: in the step S5, the sensors arranged in the warehouse include a temperature sensor, a humidity sensor and a smoke sensor, which are arranged in a group, and a plurality of groups are arranged in the warehouse and uniformly arranged, so that each angle is covered by one group of sensor data; the sensor is connected with the warehouse server to transmit data.

9. The intelligent storage material management method according to claim 1, characterized in that: in step S5, the warehouse server stores and determines the data transmitted by the sensor, so as to ensure the warehouse environment.

10. The intelligent storage material management method according to claim 1, characterized in that: in step S6, the warehouse server performs self-check on the total quantity of the goods in the warehouse according to the taking out and storing of the goods, and stores the total quantity of the goods as new data according to the check result; and generating a report for the detection result.