CN117132201A - Warehouse goods intelligent management system and intelligent management method - Google Patents

Abstract

The invention discloses an intelligent management system and an intelligent management method for warehouse goods, wherein the intelligent management system comprises a sorting system, an indoor state acquisition system, a warehouse robot control system, a warehouse storage system, a background management system, a synchronization system and a system data system; the sorting system is used for sorting, placing and storing cargoes according to a certain rule so as to be capable of being found out quickly when in use. The beneficial effects of the invention are as follows: through the setting of indoor state acquisition system, can acquire the temperature variation condition in warehouse fast, accurately, ensure that the temperature control in the storage process is in reasonable scope, can store different goods, avoid receiving the influence of indoor state, through the setting of robot, can carry out automatic sorting according to different properties such as goods size, volume, shape, colour, replace traditional manual sorting, improved letter sorting efficiency and degree of accuracy greatly. Meanwhile, the use of the robot reduces human errors and labor cost.

Description

Warehouse goods intelligent management system and intelligent management method

Technical Field

The invention belongs to the field of intelligent management of warehouse goods, and particularly relates to an intelligent management system and an intelligent management method for warehouse goods.

Background

In the prior art, the whole-course PDA operation of warehouse operation in life is realized, the data is updated in real time, paperless operation is realized, the whole efficiency of the warehouse is improved, the in-warehouse management of the intelligent warehouse management system comprises the functions of receiving, borrowing, quality inspection, allocation, inventory, validity period management, identification management, warehouse age management and the like, and the in-warehouse management of goods can be standardized in multiple directions.

However, the existing warehouse goods cannot pay attention to the environment inside the warehouse in the management process, the temperature cannot be controlled in a reasonable range, different kinds of goods cannot be stored, the storage effect of the goods can be affected, certain economic damage can be caused, dust is harmful to human bodies and extremely explosive when encountering open fire, smoke dust is mainly generated by combustion matters, certain potential safety hazards exist, and the practicability of the intelligent management system and the intelligent management method is reduced.

The invention comprises the following steps:

the invention aims to provide an intelligent warehouse cargo management system and an intelligent warehouse cargo management method for solving the problems, and solves the problems in the background art.

In order to solve the problems, the invention provides the technical scheme that:

the intelligent management system and the intelligent management method for the warehouse goods comprise a sorting system, an indoor state acquisition system, a warehouse robot control system, a warehouse storage system, a background management system, a synchronization system and a system data system; the sorting system is used for sorting, placing and storing cargoes according to a certain rule so as to be capable of being quickly found out when in use; the indoor state acquisition system is used for acquiring temperature data of an indoor environment and can rapidly and accurately acquire indoor temperature change conditions; the warehouse storage system is used for organically combining warehouse and production, improving production efficiency and reducing production cost, and the background management system is used for providing a system with management functions, is usually used by an administrator and can manage and control websites or applications; the background management system is used for managing information of a website foreground, such as issuing, updating, deleting and the like of characters, pictures, video and other daily use files, and also comprises statistics and management of member information, order information and visitor information; the synchronous system is used for synchronizing the warehouse-in information and the warehouse-out information to the computer; the system data system is used for storing a large amount of data including user data, business data, financial data and the like.

As a preferred embodiment of the present invention: the arrangement system comprises a goods warehouse-in unit and a display unit; the goods warehouse-in unit is used for sending new goods into the warehouse, and the display unit is used for controlling parameter changes in the process, displaying and recording the transition process of the controlled object, so that operators can know the change condition of the control system in time.

As a preferred embodiment of the present invention: the goods warehousing unit comprises a goods quantity detection module, a data input module and an image acquisition module;

the cargo quantity detection module is used for measuring the weight of cargoes and ensuring that the quantity of the cargoes is accurate;

the data input module is used for inputting the quantity and the positions of cargoes into the cloud end of the computer;

the image acquisition module is used for capturing and transmitting each fine change in a scene in real time, so that the monitoring result is more accurate and efficient.

As a preferred embodiment of the present invention: the display unit comprises a line guiding module, a voice prompt module and a flat panel display;

the line guiding module is used for finding the most suitable placement position of goods to be stored according to the previous data;

the voice prompt module is used for converting the human language into the language which can be understood by the computer, so that man-machine interaction is realized;

the flat panel display is used for checking various information of goods by staff.

As a preferred embodiment of the present invention: the indoor state acquisition system comprises a temperature sensing module, a humidity sensing module and a smoke sensing module;

the temperature sensing module is used for detecting the temperature in the warehouse and controlling the temperature in the warehouse;

the humidity sensing module is used for monitoring the air humidity in the warehouse in real time;

the smoke sensing module is used for detecting the smoke concentration of the surrounding environment of the warehouse.

As a preferred embodiment of the present invention: the warehouse robot control system comprises a robot auxiliary unit and a warehouse robot management and control unit; the robot auxiliary unit is used for assisting staff in managing warehouse goods; the warehouse robot management and control unit is used for autonomous navigation and automatic carrying operation, and achieves the effect of rapidly and efficiently completing the warehouse task.

As a preferred embodiment of the present invention: the robot auxiliary unit comprises a high-precision navigation module, a power management module and a power driving module;

the high-precision navigation module is used for positioning and navigating cargoes in the warehouse and carrying out road carrying by staff;

the power management module is used for converting input electric energy (alternating current or direct current) into electric energy required by the electronic equipment;

the power driving module is used for converting electric energy into mechanical energy for rotating the rotor, and the mechanical energy is downwards transmitted through the speed reducer, so that the robot is driven to run.

As a preferred embodiment of the present invention: the warehouse robot management and control unit comprises a warehouse robot, an RFID reader-writer and a warning camera;

the warehouse robot is used for automatically sorting according to different attributes such as size, volume, shape, color and the like of the goods;

the RFID reader-writer is used for identifying stationary objects and identifying moving objects;

the warning camera is used for detecting that a non-staff member enters the warehouse.

As a preferred embodiment of the present invention: the background management system comprises an order extraction module, a data collaboration module, a data comparison module, an order collaboration module and a data extraction module;

the order extraction module is used for obtaining commodity orders issued by users and extracting corresponding order demands in the commodity orders according to a preset order format;

the data collaboration module is used for generating a data collaboration network by adding data sharing and multiparty calculation, so that the problem of a user is solved;

the data comparison module is used for hardware equipment for storing and processing data;

the order cooperation module is used for very important business cooperation between enterprises and clients;

the data extraction module is used for extracting useful characteristic data from the original information for use by a subsequent module.

As a preferred embodiment of the present invention: the intelligent management method for the warehouse goods comprises the following steps:

s1, firstly checking and classifying the received goods, and placing the goods above a goods shelf in a warehouse according to the classification;

s2, detecting the temperature, the humidity and the smoke in the warehouse before storing, sampling on site strictly according to relevant standards, developing according to a preset environment monitoring scheme and recording in detail;

s3, when the goods are stored, the goods are placed above the warehouse robot, the warehouse robot detects the goods, the types and the sizes of the goods are detected, and the goods are stored in corresponding places by using a warehouse robot control system, so that staff can conveniently count and take the goods in the later period;

s4, checking, editing, deleting orders, applying refunds or deductions and the like, can check data such as access quantity, user growth rate, flow source and the like of websites or application programs, and can configure various parameters of the websites or application programs, such as mail servers, payment interfaces and the like.

The beneficial effects of the invention are as follows: through the setting of indoor state acquisition system, can acquire the temperature variation condition in warehouse fast, accurately, ensure that the temperature control in the storage process is in reasonable scope, can store different goods, avoid receiving the influence of indoor state, through the setting of robot, can carry out automatic sorting according to different properties such as goods size, volume, shape, colour, replace traditional manual sorting, improved letter sorting efficiency and degree of accuracy greatly. Meanwhile, the use of the robot reduces human errors and labor cost.

Description of the drawings:

FIG. 1 is a system block diagram of the present invention;

FIG. 2 is a system block diagram of a cargo warehousing unit of the invention;

FIG. 3 is a block diagram of a display unit system of the present invention;

FIG. 4 is a system block diagram of a robot cell of the present invention;

FIG. 5 is a block diagram of a library robot control unit system of the present invention;

FIG. 6 is a flow chart of the method of the present invention.

The specific embodiment is as follows:

as shown in fig. 1-4, the present embodiment adopts the following technical scheme:

example 1:

the intelligent management system and the intelligent management method for the warehouse goods comprise a sorting system, an indoor state acquisition system, a warehouse robot control system, a warehouse storage system, a background management system, a synchronization system and a system data system; the sorting system is used for sorting, placing and storing cargoes according to a certain rule so as to be capable of being quickly found out when in use; the indoor state acquisition system is used for acquiring temperature data of an indoor environment and can rapidly and accurately acquire indoor temperature change conditions; the warehouse storage system is used for organically combining warehouse and production, improving production efficiency and reducing production cost, and the background management system is used for providing a system with management functions, is usually used by an administrator and can manage and control websites or applications; the background management system is used for managing information of a website foreground, such as issuing, updating, deleting and the like of characters, pictures, video and other daily use files, and also comprises statistics and management of member information, order information and visitor information; the synchronous system is used for synchronizing the warehouse-in information and the warehouse-out information to the computer; the system data system is used for storing a large amount of data including user data, business data, financial data and the like.

Example 2:

firstly checking cargoes, after the checking is finished, the cargoes are required to be sorted and summarized according to a certain rule, then the cargoes are placed in corresponding warehouse areas, the process records basic information, the quantity of the cargoes, unit price, suppliers and other information of the cargoes, and the information of the recorded cargoes is synchronized in the background of a computer, so that the checking for a manager is facilitated.

Further: the arrangement system comprises a goods warehouse-in unit and a display unit; the goods warehouse-in unit is used for sending new goods into the warehouse, and the display unit is used for controlling parameter changes in the process, displaying and recording the transition process of the controlled object, so that operators can know the change condition of the control system in time.

Further: the goods warehousing unit comprises a goods quantity detection module, a data input module and an image acquisition module;

the cargo quantity detection module is used for measuring the weight of cargoes and ensuring that the quantity of the cargoes is accurate;

the data input module is used for inputting the quantity and the positions of cargoes into the cloud end of the computer;

the image acquisition module is used for capturing and transmitting each fine change in a scene in real time, so that the monitoring result is more accurate and efficient.

Further: the display unit comprises a line guiding module, a voice prompt module and a flat panel display;

the line guiding module is used for finding the most suitable placement position of goods to be stored according to the previous data;

the voice prompt module is used for converting the human language into the language which can be understood by the computer, so that man-machine interaction is realized;

the flat panel display is used for checking various information of goods by staff.

Further: the indoor state acquisition system comprises a temperature sensing module, a humidity sensing module and a smoke sensing module;

the temperature sensing module is used for detecting the temperature in the warehouse and controlling the temperature in the warehouse;

the humidity sensing module is used for monitoring the air humidity in the warehouse in real time;

the smoke sensing module is used for detecting the smoke concentration of the surrounding environment of the warehouse.

Further: the warehouse robot control system comprises a robot auxiliary unit and a warehouse robot management and control unit; the robot auxiliary unit is used for assisting staff in managing warehouse goods; the warehouse robot management and control unit is used for autonomous navigation and automatic carrying operation, and achieves the effect of rapidly and efficiently completing the warehouse task.

Further: the robot auxiliary unit comprises a high-precision navigation module, a power management module and a power driving module;

the high-precision navigation module is used for positioning and navigating cargoes in the warehouse and carrying out road carrying by staff;

the power management module is used for converting input electric energy (alternating current or direct current) into electric energy required by the electronic equipment;

the power driving module is used for converting electric energy into mechanical energy for rotating the rotor, and the mechanical energy is downwards transmitted through the speed reducer, so that the robot is driven to run.

Further: the warehouse robot management and control unit comprises a warehouse robot, an RFID reader-writer and a warning camera;

the warehouse robot is used for automatically sorting according to different attributes such as size, volume, shape, color and the like of the goods;

the RFID reader-writer is used for identifying stationary objects and identifying moving objects;

the warning camera is used for detecting that a non-staff member enters the warehouse.

Further: the background management system comprises an order extraction module, a data collaboration module, a data comparison module, an order collaboration module and a data extraction module;

the order extraction module is used for obtaining commodity orders issued by users and extracting corresponding order demands in the commodity orders according to a preset order format;

the data collaboration module is used for generating a data collaboration network by adding data sharing and multiparty calculation, so that the problem of a user is solved;

the data comparison module is used for hardware equipment for storing and processing data;

the order cooperation module is used for very important business cooperation between enterprises and clients;

the data extraction module is used for extracting useful characteristic data from the original information for use by a subsequent module.

Further: the intelligent management method for the warehouse goods comprises the following steps:

s1, firstly checking and classifying the received goods, and placing the goods above a goods shelf in a warehouse according to the classification;

s2, detecting the temperature, the humidity and the smoke in the warehouse before storing, sampling on site strictly according to relevant standards, developing according to a preset environment monitoring scheme and recording in detail;

s3, when the goods are stored, the goods are placed above the warehouse robot, the warehouse robot detects the goods, the types and the sizes of the goods are detected, and the goods are stored in corresponding places by using a warehouse robot control system, so that staff can conveniently count and take the goods in the later period;

s4, checking, editing, deleting orders, applying refunds or deductions and the like, can check data such as access quantity, user growth rate, flow source and the like of websites or application programs, and can configure various parameters of the websites or application programs, such as mail servers, payment interfaces and the like.

Example 3:

selecting reasonable sampling positions, properly optimizing the sampling positions according to actual needs, simultaneously rechecking coverage areas, station positions, optimal measurement points and the like at regular intervals, determining sampling points, interval time periods, frequency, sampling modes and the like according to the effect of indoor environment monitoring work, enabling the spatial distribution and quantity of samples to correctly reflect the change condition of monitored substances, collecting the samples, timely storing and sending the samples into a laboratory, checking the quantity of the samples by sampling personnel before transportation to avoid sample leakage, grabbing goods from goods positions in a warehouse, planning transportation paths according to current goods states, positions, tasks and the like, running the transportation paths to corresponding positions, running the transportation paths above a goods shelf of the warehouse, recording basic information of goods, goods feeding quantity, unit price, suppliers and the like in the process, checking the quantity and quality of the goods according to customer orders, and picking and packaging the goods from the warehouse.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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 management system and the intelligent management method for the warehouse goods are characterized by comprising a sorting system, an indoor state acquisition system, a warehouse robot control system, a warehouse storage system, a background management system, a synchronization system and a system data system; the sorting system is used for sorting, placing and storing cargoes according to a certain rule so as to be capable of being quickly found out when in use; the indoor state acquisition system is used for acquiring temperature data of an indoor environment and can rapidly and accurately acquire indoor temperature change conditions; the warehouse storage system is used for organically combining warehouse and production, improving production efficiency and reducing production cost, and the background management system is used for providing a system with management functions, is usually used by an administrator and can manage and control websites or applications; the background management system is used for managing information of a website foreground, such as issuing, updating, deleting and the like of characters, pictures, video and other daily use files, and also comprises statistics and management of member information, order information and visitor information; the synchronous system is used for synchronizing the warehouse-in information and the warehouse-out information to the computer; the system data system is used for storing a large amount of data including user data, business data, financial data and the like.

2. The intelligent warehouse cargo management system and the intelligent management method according to claim 1, wherein the arrangement system comprises a cargo warehousing unit and a display unit; the goods warehouse-in unit is used for sending new goods into the warehouse, and the display unit is used for controlling parameter changes in the process, displaying and recording the transition process of the controlled object, so that operators can know the change condition of the control system in time.

3. The intelligent warehouse cargo management system and the intelligent management method according to claim 2, wherein the cargo warehousing unit comprises a cargo quantity detection module, a data input module and an image acquisition module;

the cargo quantity detection module is used for measuring the weight of cargoes and ensuring that the quantity of the cargoes is accurate;

the data input module is used for inputting the quantity and the positions of cargoes into the cloud end of the computer;

the image acquisition module is used for capturing and transmitting each fine change in a scene in real time, so that the monitoring result is more accurate and efficient.

4. The intelligent warehouse cargo management system and intelligent management method according to claim 2, wherein the display unit comprises a line guiding module, a voice prompt module and a flat panel display;

the line guiding module is used for finding the most suitable placement position of goods to be stored according to the previous data;

the voice prompt module is used for converting the human language into the language which can be understood by the computer, so that man-machine interaction is realized;

the flat panel display is used for checking various information of goods by staff.

5. The intelligent warehouse cargo management system and intelligent management method according to claim 1, wherein the indoor status collection system comprises a temperature sensing module, a humidity sensing module and a smoke sensing module;

the temperature sensing module is used for detecting the temperature in the warehouse and controlling the temperature in the warehouse;

the humidity sensing module is used for monitoring the air humidity in the warehouse in real time;

the smoke sensing module is used for detecting the smoke concentration of the surrounding environment of the warehouse.

6. The intelligent warehouse cargo management system and the intelligent management method as claimed in claim 1, wherein the warehouse robot control system includes a robot auxiliary unit and a warehouse robot management and control unit; the robot auxiliary unit is used for assisting staff in managing warehouse goods; the warehouse robot management and control unit is used for autonomous navigation and automatic carrying operation, and achieves the effect of rapidly and efficiently completing the warehouse task.

7. The intelligent warehouse cargo management system and the intelligent management method as claimed in claim 6, wherein the robot assistance unit includes a high-precision navigation module, a power management module, and a power driving module;

the high-precision navigation module is used for positioning and navigating cargoes in the warehouse and carrying out road carrying by staff;

the power management module is used for converting input electric energy (alternating current or direct current) into electric energy required by the electronic equipment;

the power driving module is used for converting electric energy into mechanical energy for rotating the rotor, and the mechanical energy is downwards transmitted through the speed reducer, so that the robot is driven to run.

8. The intelligent warehouse cargo management system and intelligent management method as claimed in claim 6, wherein the warehouse robot management and control unit comprises a warehouse robot, an RFID reader and an alert camera;

the warehouse robot is used for automatically sorting according to different attributes such as size, volume, shape, color and the like of the goods;

the RFID reader-writer is used for identifying stationary objects and identifying moving objects;

the warning camera is used for detecting that a non-staff member enters the warehouse.

9. The intelligent warehouse cargo management system and the intelligent management method according to claim 1, wherein the background management system comprises an order extraction module, a data collaboration module, a data comparison module, an order collaboration module and a data extraction module;

the order extraction module is used for obtaining commodity orders issued by users and extracting corresponding order demands in the commodity orders according to a preset order format;

the data collaboration module is used for generating a data collaboration network by adding data sharing and multiparty calculation, so that the problem of a user is solved;

the data comparison module is used for hardware equipment for storing and processing data;

the order cooperation module is used for very important business cooperation between enterprises and clients;

the data extraction module is used for extracting useful characteristic data from the original information for use by a subsequent module.

10. The intelligent management method for warehouse goods according to claims 1-9, characterized by comprising the steps of:

s1, firstly checking and classifying the received goods, and placing the goods above a goods shelf in a warehouse according to the classification;

s2, detecting the temperature, the humidity and the smoke in the warehouse before storing, sampling on site strictly according to relevant standards, developing according to a preset environment monitoring scheme and recording in detail;

s3, when the goods are stored, the goods are placed above the warehouse robot, the warehouse robot detects the goods, the types and the sizes of the goods are detected, and the goods are stored in corresponding places by using a warehouse robot control system, so that staff can conveniently count and take the goods in the later period;

s4, checking, editing, deleting orders, applying refunds or deductions and the like, can check data such as access quantity, user growth rate, flow source and the like of websites or application programs, and can configure various parameters of the websites or application programs, such as mail servers, payment interfaces and the like.