CN113379283A - Unattended electronic spare and accessory part AI warehouse system based on NB-IOT - Google Patents

Abstract

The invention discloses an unattended electronic spare part AI warehouse system based on NB-IOT, which can effectively improve the intelligent management capability of an electronic spare part warehouse and effectively reduce the manpower. The system comprises an automatic warehouse system, a server, an NB-IOT gateway, a human-computer interface system, an AI brain, a database, an ERP planning system, an after-sale analysis system and a production analysis system, wherein the NB-IOT gateway, the human-computer interface system, the AI brain and the database are all in communication connection with the server; the ERP planning system, the after-sales analysis system and the production analysis system are all in communication connection with the server. The invention is applied to the technical field of storage logistics storage.

Description

Unattended electronic spare and accessory part AI warehouse system based on NB-IOT

Technical Field

The invention relates to an electronic spare and accessory part AI warehouse system, in particular to an unattended electronic spare and accessory part AI warehouse system based on NB-IOT.

Background

The existing electronic parts warehouse needs to manually identify materials and then input the materials into a server, although the electronic parts warehouse is provided with a mature management server, the electronic parts warehouse only plays a role in the stock, sales and inventory management of warehouse management, but still needs to be manually taken and placed, so that the work task of a warehouse manager is aggravated, and the checking is inconvenient; in addition, after the materials are identified, the materials need to be manually matched with the conditions for storing the suitable materials to a specific warehouse position, so that the labor cost is invisibly increased, and the after-sale warehouse of the materials is not regulated and controlled by a complete system, so that the intelligence of the warehouse is far away from the requirement of a user.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides an unattended electronic spare part AI warehouse system based on NB-IOT, which can effectively improve the intelligent management capability of the electronic spare part warehouse and effectively reduce the manpower.

The technical scheme adopted by the invention is as follows: the system comprises an automatic warehouse system, a server, an NB-IOT gateway, a human-computer interface system, an AI brain, a database, an ERP planning system, an after-sale analysis system and a production analysis system, wherein the NB-IOT gateway, the human-computer interface system, the AI brain and the database are all in communication connection with the server; the ERP planning system is in communication connection with the server and is used for inputting storage conditions required by electronic spare and accessory parts to the server; the after-sale analysis system is in communication connection with the server and is used for tracing original documents and suppliers of electronic spare and accessory parts with failures, and recording failure reasons of the electronic spare and accessory parts into a database; the production analysis system is in communication connection with the server and used for recording the output electronic spare and accessory parts materials and the inventory of the automatic warehouse system.

Furthermore, the unattended electronic spare and accessory part AI warehouse system based on NB-IOT further comprises a sensor control terminal, the automatic warehouse system is provided with a plurality of storage areas and conveying devices distributed in all the storage areas, a material taking manipulator is arranged between each storage area and each conveying device, each storage area is provided with a temperature sensor, a humidity sensor and a dust sensor, and a material taking window of the automatic warehouse system is provided with a visual sensor and an optical detection sensor; the temperature sensor, the humidity sensor, the dust sensor, the vision sensor and the optical detection sensor are all in communication connection with the sensor control terminal, and the sensor control terminal is in communication connection with the NB-IOT gateway.

Further, the storage area is provided with the storage frame, the storage frame is equipped with a plurality of goods position groove, and every goods groove all is equipped with the goods position code, and the storage of electron accessories material is put in the goods inslot.

Further, the after-sale analysis system comprises an after-sale entry system and a product management system; the after-sale entry system is used for systematically entering the damaged parts of the electronic spare and accessory parts according to the material codes of the electronic spare and accessory parts when customers carry out after-sale service on the electronic spare and accessory parts; the product management system is used for comparing and analyzing the damaged part of the electronic spare and accessory part material provided by the customer with a storage library of the easily damaged part of the original electronic spare and accessory part material and automatically generating an analysis report.

Further, the ERP planning system comprises an input module and a processing module, wherein the input module is used for acquiring electronic spare and accessory parts to be input; the processing module is used for creating a required storage condition for recording the electronic spare and accessory parts in the ERP system.

Further, the AI brain can calculate a storage curve according to the storage conditions required by the electronic parts and accessories recorded by the ERP material system, the operation database, the control parameters of the sensor control terminal and the analysis report of the after-sales faults, and the storage curve can place the electronic parts and accessories in the storage area with the most appropriate conditions.

Further, the human-computer interface system and the server adopt a CS architecture.

Furthermore, the human-computer interface system comprises an operation display screen, an alarm module and a monitoring module.

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

1. the automatic warehouse system is used for realizing automatic storage and pickup of electronic spare and accessory parts, so that the labor cost is saved, and the influence on the storage condition of the warehouse caused by the fact that workers enter and exit the warehouse for a long time is avoided;

2. the NB-IOT gateway is adopted to realize very comprehensive indoor cellular data connection coverage of the automatic warehouse system, and the battery life can be prolonged by at least ten years;

3. by adopting the cooperation of an ERP planning system and a database, the storage condition and the corresponding storage area which are most suitable for electronic spare and accessory parts can be automatically called out, and the management requirements are simplified;

4. by adopting the after-sale analysis system, the original and the supplier of the electronic spare and accessory parts with faults can be effectively traced, the analysis report of the after-sale faults is recorded into the database, and the optimal storage condition of the electronic spare and accessory parts is adjusted in real time.

Drawings

Fig. 1 is a schematic diagram of the principle of the present invention.

Detailed Description

As shown in fig. 1, in the present embodiment, the present invention includes an automated warehouse system 1, a server 2, an NB-IOT gateway 3, a human-machine interface system 4, an AI brain 5, a database 6, an ERP planning system 7, an after-sales analysis system 8, and a production analysis system 9, the NB-IOT gateway 3, the human interface system 4, the AI brain 5, and the database 6 are all communicatively coupled to the server 2, specifically, the NB-IOT gateway 3 is communicatively coupled to the server 2 via an NB IOT module, a plurality of electronic spare and accessory parts materials are stored in the automatic warehouse system 1, each electronic spare and accessory part material has a material code, the automatic warehouse system 1 is in communication connection with the NB-IOT gateway 3, a storage location and a storage environment for electronic accessory materials are transmitted to the NB-IOT gateway 3; the ERP planning system 7 is in communication connection with the server 2 and is used for inputting storage conditions required by electronic spare and accessory parts to the server 2; the after-sale analysis system 8 is in communication connection with the server 2 and is used for tracing original documents and suppliers of electronic spare and accessory parts with failures, and recording failure reasons of the electronic spare and accessory parts into the database 6; the production analysis system 9 is in communication connection with the server 2 and is used for recording the output electronic spare and accessory parts materials and the inventory of the automatic warehouse system 1.

In this embodiment, the automatic warehouse system 1 further comprises a sensor control terminal, the automatic warehouse system 1 is provided with a plurality of storage areas and conveying devices distributed in all the storage areas, material taking manipulators are arranged between the storage areas and the conveying devices, the material taking manipulators can take materials from the storage areas and place the materials into the conveying devices for conveying, each storage area is provided with a temperature sensor, a humidity sensor and a dust sensor, a visual sensor and an optical detection sensor are arranged at a material taking window of the automatic warehouse system 1, the visual sensor is used for detecting whether the whole three-dimensional appearance of the in-and-out electronic spare and accessory parts has faults, and the optical detection sensor is used for detecting whether the plane appearance of the in-and-out electronic spare and accessory parts has faults; the temperature sensor, the humidity sensor, the dust sensor, the visual sensor and the optical detection sensor are all in communication connection with the sensor control terminal, the sensor control terminal is in communication connection with the NB-IOT gateway 3, the temperature sensor, the humidity sensor and the dust sensor can monitor the temperature, the humidity and the dust degree of the storage areas in real time, transmit signals to the NB-IOT gateway 3 and then to the server 2, when the ERP planning system 7 inputs the required storage conditions of electronic parts and materials to the server 2, the server 2 can select the most suitable storage area to store according to the temperature, the humidity and the dust degree of the storage areas transmitted by the NB-IOT gateway 3, if no suitable storage area exists, the automatic warehouse system 1 can adjust the storage area with the proper temperature and the proper humidity through an air conditioner and a humidifier to be used for storing the electronic parts and materials And (5) parts and materials.

In this embodiment, the storage area is provided with the storage frame, the storage frame is equipped with a plurality of goods position groove, and every goods groove all is equipped with the goods position code, and the storage of electron accessories material is put in the goods inslot.

In this embodiment, the after-sale analysis system 8 includes an after-sale entry system and a product management system; the after-sale entry system is used for systematically entering the damaged parts of the electronic spare and accessory parts according to the material codes of the electronic spare and accessory parts when customers carry out after-sale service on the electronic spare and accessory parts; the product management system is used for comparing and analyzing the damaged part of the electronic spare and accessory part material provided by the customer with a storage library of the easily damaged part of the original electronic spare and accessory part material and automatically generating an analysis report.

In this embodiment, the ERP planning system 7 includes an input module and a processing module, where the input module is used to obtain electronic spare and accessory parts to be entered; the processing module is used for creating a required storage condition for recording the electronic spare and accessory parts in the ERP system.

In this embodiment, the AI brain 5 may record data such as storage conditions required by the electronic parts and components, the operation database 6, control parameters of the sensor control terminal, and an analysis report of an after-sales fault according to the ERP material system, draw a curve, and calculate a storage curve according to the storage requirements of the related materials, where the storage curve can place the electronic parts and components in the storage area with the most appropriate conditions.

In this embodiment, the human-computer interface system 4 and the server 2 adopt a CS architecture.

In this embodiment, the human-computer interface system 4 includes an operation display screen, an alarm module and a monitoring module, the monitoring module is used for monitoring the working condition of the automatic warehouse system 1, and the alarm module is used for sending alarm information when the automatic warehouse system 1 fails, such as a transmission failure, a material taking failure, a failure of uncontrolled storage environment, and the like.

The invention is applied to the technical field of storage logistics storage.

While the embodiments of the present invention have been described in terms of practical embodiments, they are not to be construed as limiting the meaning of the present invention, and modifications of the embodiments and combinations with other embodiments will be apparent to those skilled in the art in light of the present description.

Claims (8)

1. An unattended electronic spare part AI warehouse system based on NB-IOT, its characterized in that: the system comprises an automatic warehouse system (1), a server (2), an NB-IOT gateway (3), a human-computer interface system (4), an AI brain (5), a database (6), an ERP planning system (7), an after-sales analysis system (8) and a production analysis system (9), wherein the NB-IOT gateway (3), the human-computer interface system (4), the AI brain (5) and the database (6) are all in communication connection with the server (2), a plurality of electronic spare and accessory parts are stored in the automatic warehouse system (1), each electronic spare and accessory part has a material code, and the automatic warehouse system (1) is in communication connection with the NB-IOT gateway (3) and is used for transmitting the positions and storage environments of the electronic spare and accessory parts to the NB-IOT gateway (3); the ERP planning system (7) is in communication connection with the server (2) and is used for inputting storage conditions required by electronic spare and accessory parts to the server (2); the after-sale analysis system (8) is in communication connection with the server (2) and is used for searching the electronic spare and accessory part materials sold with faults for original copies and suppliers and recording fault reasons of the electronic spare and accessory part materials into the database (6); the production analysis system (9) is in communication connection with the server (2) and is used for recording output electronic spare and accessory parts materials and the inventory of the automatic warehouse system (1).

2. The NB-IOT based unattended electronic gadget AI warehouse system according to claim 1, wherein: the automatic warehouse system (1) is provided with a plurality of storage areas and conveying devices distributed in all the storage areas, material taking manipulators are arranged between the storage areas and the conveying devices, each storage area is provided with a temperature sensor, a humidity sensor and a dust sensor, and a vision sensor and an optical detection sensor are arranged at the material taking window of the automatic warehouse system (1); the temperature sensor, the humidity sensor, the dust sensor, the vision sensor and the optical detection sensor are all in communication connection with the sensor control terminal, and the sensor control terminal is in communication connection with the NB-IOT gateway (3).

3. The NB-IOT based unattended electronic gadget AI warehouse system according to claim 2, wherein: the storage area is provided with the storage frame, the storage frame is equipped with a plurality of goods position groove, and every goods groove all is equipped with the goods position code, and electronic accessories material storage is in the goods inslot.

4. The NB-IOT based unattended electronic gadget AI warehouse system according to claim 2, wherein: the after-sale analysis system (8) comprises an after-sale entry system and a product management system; the after-sale entry system is used for systematically entering the damaged parts of the electronic spare and accessory parts according to the material codes of the electronic spare and accessory parts when customers carry out after-sale service on the electronic spare and accessory parts; the product management system is used for comparing and analyzing the damaged part of the electronic spare and accessory part material provided by the customer with a storage library of the easily damaged part of the original electronic spare and accessory part material and automatically generating an analysis report.

5. The NB-IOT based unattended electronic gadget AI warehouse system according to claim 4, wherein: the ERP planning system (7) comprises an input module and a processing module, wherein the input module is used for acquiring electronic spare and accessory parts to be input; the processing module is used for creating a required storage condition for recording the electronic spare and accessory parts in the ERP system.

6. The NB-IOT based unattended electronic gadget AI warehouse system according to claim 5, wherein: the AI brain (5) can calculate a storage curve according to the storage conditions required by the electronic parts and accessories recorded by the ERP material system, the operation database (6), the control parameters of the sensor control terminal and the analysis report of the after-sales faults, and the storage curve can place the electronic parts and accessories in the storage area with the most appropriate conditions.

7. The NB-IOT based unattended electronic gadget AI warehouse system according to claim 2, wherein: the human-computer interface system (4) and the server (2) adopt a CS framework.

8. The NB-IOT based unattended electronic gadget AI warehouse system according to claim 2, wherein: the human-computer interface system (4) comprises an operation display screen, an alarm module and a monitoring module.

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