CN112418766A - Warehouse management system algorithm based on Internet - Google Patents

Abstract

The invention discloses an internet-based warehouse management system algorithm, which has the technical scheme that: the system comprises a cargo identification and detection system, a conveying system, a placement system, an in-out warehouse system and a control system; the goods identification and detection system comprises an identification module and a detection module, wherein the identification module and the detection module can scan goods entering a warehouse, identify and classify information of the goods after a result is obtained, and then detect the goods; conveying system with goods discernment detecting system interconnect, conveying system is used for carrying the goods that accomplish scanning, detection and discernment are categorised, and the goods discernment detecting system who is equipped with scans the goods that gets into the warehouse, obtains the result after, discerns the information of goods categorised, detects the goods again, and the convenience is categorised the goods, and the conveying system who is equipped with is convenient for the goods and carries the assigned position, improves the transport efficiency of goods.

Description

Warehouse management system algorithm based on Internet

Technical Field

The invention relates to the field of valves, in particular to an internet-based warehouse management system algorithm.

Background

Warehouse management is an important component of enterprise management, and has the distinct characteristics that: the information processing amount is large, the variety of products to be managed is various, and the generation amount of documents such as warehouse-in and warehouse-out documents, inventory documents, material acceptance documents and the like is very large, so that the data information required to be associated is large. Meanwhile, the query and statistical modes of each product are different, so that the management is very difficult to implement, and information confusion and repetition in the management process are easily caused.

If the granted publication number is CN110490528A, it discloses an algorithm and system for warehouse automatic warehousing, the algorithm includes S1, photographing and scanning the warehousing commodity hang tag through the preset APP of the mobile phone end; s2, transmitting the identified commodity information to a big data platform; s3, accurately matching the commodity information through the big data platform; s4, if the matching degree value reaches the preset matching degree value, matching is successful, the matched commodity information is fed back to the mobile phone terminal, otherwise, warehousing information needs to be manually filled, and unmatched data information is stored in the big data platform; s5, the mobile phone end respectively fills the corresponding commodity descriptions in the warehousing form according to the data types fed back; s6, the mobile phone end submits the commodity information to a warehousing system directly or after correction; and S7, the warehouse or the receiving unit finishes automatic warehousing according to the transmission instruction of the mobile phone terminal.

The automatic warehouse entry algorithm and the system user can directly enter the warehouse online through the mobile phone, so that the operation efficiency is improved, and the error rate is reduced; however, the above-mentioned algorithm and system for automatic warehousing of the warehouse still have some disadvantages, such as low storage efficiency of the goods.

Disclosure of Invention

The invention aims to provide an internet-based warehouse management system algorithm to solve the problems in the background art.

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

a warehouse management system based on the Internet comprises a goods identification and detection system, a conveying system, a placement system, an in-out warehouse system and a control system;

the goods identification and detection system comprises an identification module and a detection module, wherein the identification module and the detection module can scan goods entering a warehouse, identify and classify information of the goods after a result is obtained, and then detect the goods;

the conveying system is connected with the cargo identification and detection system, and is used for conveying the cargos which are scanned, detected, identified and classified to a designated position;

the placing system is used for taking and placing the goods conveyed by the conveying system and keeping the goods;

the warehouse-in and warehouse-out system is in wireless connection with the control system, is used for confirming warehouse-in and warehouse-out information of goods, and makes corresponding work after a worker sends out a warehouse-in or warehouse-out instruction according to the warehouse-in and warehouse-out system;

the control system is used for transmitting and feeding back execution instructions to each system, and is convenient for workers to issue corresponding operation instructions and detect the running conditions of each system.

Preferably, a plurality of conveyor belt devices are arranged in the conveying system, the conveyor belt devices are all installed in the warehouse, and the conveyor belt devices are used for conveying goods.

Preferably, the placing system comprises a placing shelf and a goods taking arm, the goods taking arm is installed on one side of the placing shelf, the placing shelf is used for placing goods, the goods of the same type are reasonably placed together, and goods taking is carried out by moving a goods taking claw on the goods taking arm up and down.

Preferably, a plurality of RFID code readers are arranged in the warehouse entry and exit system, and the RFID code readers read and write information of the goods in and out of the warehouse for data exchange and goods identification.

Preferably, the control system is provided with a mobile terminal, and the mobile terminal monitors the cargo identification and detection system, the conveying system, the placement system and the warehousing-in-and-out system in real time through a mobile internet.

Preferably, the identification module is provided with an RFID sensor and a camera, the RFID sensor and the camera are used for information identification and information acquisition of goods, the detection module is provided with an X-ray detector, and the X-ray detector is used for detecting dangerous goods.

Preferably, the control system is provided with an information storage module, and the information storage module is used for storing the collected cargo information.

An internet-based warehouse management algorithm, comprising the steps of:

s1, collecting information of goods to be warehoused through the RFID sensor and the camera, and identifying the collected goods information by using a character identification algorithm;

s2, transmitting information acquired by the RFID sensor and the camera to goods needing to be put in storage to a control system through the Internet by the mobile phone end for data analysis;

s3, the control system carries out accurate distribution according to the cargo information identified by scanning and calculates the distribution degree;

s4, if the distribution degree is larger than or equal to the preset distribution degree value, the matching is judged to be successful, the control system directly feeds back the matched goods information to the conveying system, otherwise, the warehousing information needs to be manually filled in and stored in the control system for filing, and the manual storage is carried out;

and S5, directly conveying the goods to a preset storage position through the conveying system, storing the goods on the storage rack by vertically moving the goods taking claw on the goods taking arm, and confirming and warehousing the information of the goods through the warehousing and ex-warehousing system.

Preferably, the goods information includes goods name, goods delivery place, goods category, goods specification, goods picture and goods material.

Preferably, the preset distribution value is set to 70%.

Compared with the prior art, the invention has the beneficial effects that:

in this warehouse management system algorithm based on internet, the goods discernment detecting system that is equipped with, the goods that gets into the warehouse scan, after obtaining the result, discern the information of goods and classify, detect the goods again, conveniently classify the goods, the conveying system that is equipped with is convenient for the goods and carries the assigned position, improve the conveying efficiency of goods, the placement system that is equipped with is convenient for deposit and take of goods, the operating efficiency of warehouse has been improved, the warehouse entry and warehouse exit system that is equipped with is convenient for be used for confirming the information of the warehouse entry and the warehouse exit of goods, the staff makes corresponding work after the instruction of warehouse exit or warehouse entry that warehouse entry and warehouse exit system sent, the control system that is equipped with is convenient for be used for transmission and feedback to the execution instruction of each system, be convenient for the staff to issue corresponding operating command and detect the operation situation of each system.

Drawings

FIG. 1 is a block diagram of the system architecture 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.

Example 1

A warehouse management system based on the Internet comprises a goods identification and detection system, a conveying system, a placement system, an in-out warehouse system and a control system;

the goods identification and detection system comprises an identification module and a detection module, wherein the identification module and the detection module can scan goods entering a warehouse, identify and classify information of the goods after a result is obtained, and then detect the goods;

the conveying system is connected with the cargo identification and detection system, and is used for conveying the cargos which are scanned, detected, identified and classified to a designated position;

the placing system is used for taking and placing the goods conveyed by the conveying system and keeping the goods;

the warehouse-in and warehouse-out system is in wireless connection with the control system, is used for confirming warehouse-in and warehouse-out information of goods, and makes corresponding work after a worker sends out a warehouse-in or warehouse-out instruction according to the warehouse-in and warehouse-out system;

the control system is used for transmitting and feeding back execution instructions to each system, and is convenient for workers to issue corresponding operation instructions and detect the running conditions of each system.

In this embodiment, preferably, a plurality of conveyor belt devices are arranged in the conveying system, and all the conveyor belt devices are installed in the warehouse and used for conveying goods.

In this embodiment, it is preferred that the placing system includes placing goods shelves and getting the goods arm, get the goods arm and install one side of placing goods shelves, placing goods shelves and being used for putting of goods, the reasonable goods of the same kind of type of placing together, through get the goods claw on the goods arm and reciprocate and carry out the taking of goods.

In this embodiment, preferably, a plurality of RFID code readers are provided in the warehouse entry and exit system, and the RFID code readers perform data exchange on the information read by the goods in the warehouse entry and exit system to identify the goods.

In this embodiment, preferably, the control system is provided with a mobile terminal, and the mobile terminal monitors the cargo identification and detection system, the transportation system, the placement system, and the warehousing-in-and-out system in real time through a mobile internet.

In this embodiment, preferably, the identification module is provided with an RFID sensor and a camera, the RFID sensor and the camera are used for information identification and information acquisition of goods, the detection module is provided with an X-ray detector, and the X-ray detector is used for detecting dangerous goods.

In this embodiment, preferably, the control system is provided with an information storage module, and the information storage module is used for storing the collected cargo information.

An internet-based warehouse management algorithm, comprising the steps of:

s1, collecting information of goods to be warehoused through the RFID sensor and the camera, and identifying the collected goods information by using a character identification algorithm;

s2, transmitting information acquired by the RFID sensor and the camera to goods needing to be put in storage to a control system through the Internet by the mobile phone end for data analysis;

s3, the control system carries out accurate distribution according to the cargo information identified by scanning and calculates the distribution degree;

s4, if the distribution degree is larger than or equal to the preset distribution degree value, the matching is judged to be successful, the control system directly feeds back the matched goods information to the conveying system, otherwise, the warehousing information needs to be manually filled in and stored in the control system for filing, and the manual storage is carried out;

and S5, directly conveying the goods to a preset storage position through the conveying system, storing the goods on the storage rack by vertically moving the goods taking claw on the goods taking arm, and confirming and warehousing the information of the goods through the warehousing and ex-warehousing system.

In this embodiment, preferably, the cargo information includes a cargo name, a cargo delivery location, a cargo category, a commodity specification, a cargo picture, and a cargo material.

In this embodiment, it is preferable that the preset distribution value is set to 70%.

Example 2

A warehouse management system based on the Internet comprises a goods identification and detection system, a conveying system, a placement system, an in-out warehouse system and a control system;

the goods identification and detection system comprises an identification module and a detection module, wherein the identification module and the detection module can scan goods entering a warehouse, identify and classify information of the goods after a result is obtained, and then detect the goods;

the conveying system is connected with the cargo identification and detection system, and is used for conveying the cargos which are scanned, detected, identified and classified to a designated position;

the placing system is used for taking and placing the goods conveyed by the conveying system and keeping the goods;

the warehouse-in and warehouse-out system is in wireless connection with the control system, is used for confirming warehouse-in and warehouse-out information of goods, and makes corresponding work after a worker sends out a warehouse-in or warehouse-out instruction according to the warehouse-in and warehouse-out system;

the control system is used for transmitting and feeding back execution instructions to each system, and is convenient for workers to issue corresponding operation instructions and detect the running conditions of each system.

In this embodiment, preferably, a plurality of conveyor belt devices are arranged in the conveying system, and all the conveyor belt devices are installed in the warehouse and used for conveying goods.

In this embodiment, it is preferred that the placing system includes placing goods shelves and getting the goods arm, get the goods arm and install one side of placing goods shelves, placing goods shelves and being used for putting of goods, the reasonable goods of the same kind of type of placing together, through get the goods claw on the goods arm and reciprocate and carry out the taking of goods.

In this embodiment, preferably, a plurality of RFID code readers are provided in the warehouse entry and exit system, and the RFID code readers perform data exchange on the information read by the goods in the warehouse entry and exit system to identify the goods.

In this embodiment, preferably, the control system is provided with a mobile terminal, and the mobile terminal monitors the cargo identification and detection system, the transportation system, the placement system, and the warehousing-in-and-out system in real time through a mobile internet.

In this embodiment, preferably, the identification module is provided with an RFID sensor and a camera, the RFID sensor and the camera are used for information identification and information acquisition of goods, the detection module is provided with an X-ray detector, and the X-ray detector is used for detecting dangerous goods.

In this embodiment, preferably, the control system is provided with an information storage module, and the information storage module is used for storing the collected cargo information.

An internet-based warehouse management algorithm, comprising the steps of:

s1, collecting information of goods to be warehoused through the RFID sensor and the camera, and identifying the collected goods information by using a character identification algorithm;

s2, transmitting information acquired by the RFID sensor and the camera to goods needing to be put in storage to a control system through the Internet by the mobile phone end for data analysis;

s3, the control system carries out accurate distribution according to the cargo information identified by scanning and calculates the distribution degree;

s4, if the distribution degree is larger than or equal to the preset distribution degree value, the matching is judged to be successful, the control system directly feeds back the matched goods information to the conveying system, otherwise, the warehousing information needs to be manually filled in and stored in the control system for filing, and the manual storage is carried out;

and S5, directly conveying the goods to a preset storage position through the conveying system, storing the goods on the storage rack by vertically moving the goods taking claw on the goods taking arm, and confirming and warehousing the information of the goods through the warehousing and ex-warehousing system.

The working principle and the using process of the invention are as follows:

this warehouse management system algorithm based on internet when using, through goods discernment detecting system, the goods that get into the warehouse scan, after obtaining the result, discern the information of goods and classify, detect the goods again, conveniently classify the goods, be convenient for the goods through conveying system and carry the assigned position, improve the conveying efficiency of goods, be convenient for depositing and taking of goods through the placement system, the operating efficiency of warehouse has been improved, the information of warehouse entry and warehouse exit that is convenient for to be used for confirming the goods through warehouse entry system in warehouse entry and warehouse exit, the staff makes corresponding work according to the instruction back of warehouse exit or warehouse entry that warehouse entry system sent, be convenient for be used for transmission and feedback to the executive instruction of each system through control system, be convenient for the staff to issue corresponding operating command and detect the operation conditions of each system.

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. An internet-based warehouse management system, characterized in that: the system comprises a cargo identification and detection system, a conveying system, a placement system, an in-out warehouse system and a control system;

the goods identification and detection system comprises an identification module and a detection module, wherein the identification module and the detection module can scan goods entering a warehouse, identify and classify information of the goods after a result is obtained, and then detect the goods;

the conveying system is connected with the cargo identification and detection system, and is used for conveying the cargos which are scanned, detected, identified and classified to a designated position;

the placing system is used for taking and placing the goods conveyed by the conveying system and keeping the goods;

the warehouse-in and warehouse-out system is in wireless connection with the control system, is used for confirming warehouse-in and warehouse-out information of goods, and makes corresponding work after a worker sends out a warehouse-in or warehouse-out instruction according to the warehouse-in and warehouse-out system;

the control system is used for transmitting and feeding back execution instructions to each system, and is convenient for workers to issue corresponding operation instructions and detect the running conditions of each system.

2. The internet-based warehouse management system of claim 1, wherein: the conveying system is internally provided with a plurality of conveying belt devices, the plurality of conveying belt devices are all arranged in the warehouse, and the conveying belt devices are used for conveying goods.

3. The internet-based warehouse management system of claim 1, wherein: the placing system comprises a placing goods shelf and a goods taking arm, wherein the goods taking arm is installed on one side of the placing goods shelf, the placing goods shelf is used for placing goods, the goods of the same type are reasonably placed together, and the goods taking claw on the goods taking arm moves up and down to take the goods.

4. The internet-based warehouse management system of claim 1, wherein: and a plurality of RFID code readers are arranged in the warehouse-in and warehouse-out system, and the RFID code readers read and write information of the goods in warehouse-out and warehouse-in, perform data exchange and identify the goods.

5. The internet-based warehouse management system of claim 1, wherein: the control system is provided with a mobile terminal, and the mobile terminal monitors the cargo identification and detection system, the conveying system, the placement system and the warehousing-in-and-out system in real time through the mobile internet.

6. The internet-based warehouse management system of claim 1, wherein: the RFID system comprises an identification module, a detection module and an X-ray detector, wherein the identification module is provided with an RFID sensor and a camera, the RFID sensor and the camera are used for information identification and information acquisition of goods, the detection module is provided with the X-ray detector, and the X-ray detector is used for detecting dangerous goods.

7. The internet-based warehouse management system of claim 1, wherein: the control system is provided with an information storage module, and the information storage module is used for storing the collected cargo information.

8. An internet-based warehouse management algorithm, comprising the steps of:

s1, collecting information of goods to be warehoused through the RFID sensor and the camera, and identifying the collected goods information by using a character identification algorithm;

s2, transmitting information acquired by the RFID sensor and the camera to goods needing to be put in storage to a control system through the Internet by the mobile phone end for data analysis;

s3, the control system carries out accurate distribution according to the cargo information identified by scanning and calculates the distribution degree;

s4, if the distribution degree is larger than or equal to the preset distribution degree value, the matching is judged to be successful, the control system directly feeds back the matched goods information to the conveying system, otherwise, the warehousing information needs to be manually filled in and stored in the control system for filing, and the manual storage is carried out;

and S5, directly conveying the goods to a preset storage position through the conveying system, storing the goods on the storage rack by vertically moving the goods taking claw on the goods taking arm, and confirming and warehousing the information of the goods through the warehousing and ex-warehousing system.

9. The internet-based warehouse management system algorithm of claim 8, wherein: the goods information comprises goods names, goods production places, goods categories, goods specifications, goods pictures and goods materials.

10. The internet-based warehouse management system algorithm of claim 8, wherein: the preset allocation value is set to 70%.

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