The QDITC rotary drawer storage system has been successfully applied in the design and implementation of air force aircraft maintenance

Summary:

With the continuous advancement of air force modernization, higher requirements have been put forward for the management of components. This article proposes a rotary warehouse system for air force components, aimed at improving the efficiency of component access, ensuring rapid supply of components, and reducing management costs. By adopting advanced automation and information technology, the rotary warehouse system can achieve precise management and efficient distribution of components.

1. Introduction

The management of air force components is a key link in ensuring flight safety and improving combat efficiency. The traditional method of storing components has problems such as low efficiency and difficult management. Therefore, designing an efficient and intelligent rotary warehouse system is particularly important.

2. Design of Rotary Warehouse System

2.1 System Architecture

The revolving warehouse system mainly includes the following parts: automated storage and retrieval system, intelligent sorting system, information management system, and user interface. In this project, QDITC Intelligent innovatively adopts a drawer style design, providing more protection for aircraft spare parts.

2.2 Automated Storage and Retrieval System

Adopting the QDITC rotary warehouse hopper, the storage and retrieval of components are achieved through a computer-controlled rotating mechanism. Each storage location is equipped with barcodes or RFID tags for easy system identification and positioning.

2.3 Information Management System

Establish a cloud based information management platform to achieve real-time updates and queries of component information. The system can automatically record information such as incoming, outgoing, and inventory levels of components, and provide data analysis and decision support.

2.4 User Interface

Design a user-friendly interface to facilitate operations such as inbound, outbound, and query for operators. The interface should be intuitive and easy to use, supporting multiple operation permission management.

3. System implementation

3.1 Hardware selection and layout

Select appropriate rotary warehouse hoppers, automation equipment, and sensors based on the characteristics of air force components. Reasonably plan the system layout to ensure maximum space utilization.

3.2 Software Interface

The QDITC middleware system achieves seamless integration with automation equipment. Middleware software is a SCADA software applied to individual devices, which has good scalability and stability to ensure long-term stable operation of the system.

3.3 System Integration

The QDITC WMS material management system integrates hardware devices with software systems, not only for controlling individual devices but also for controlling multiple devices and managing materials, supporting secure data transmission within the local area network. Ensure the normal operation of all system functions.

4. Conclusion

The rotary warehouse system designed in this article can effectively improve the management efficiency of air force components, reduce labor costs, and ensure the rapid supply of components. In the future, with the continuous advancement of technology, the revolving warehouse system will become more intelligent and automated, providing stronger support for the management of air force components. QDITC Intelligent provides continuous product innovation to ensure efficient material management and sustainable production for customers.

Keywords: Air Force components; QDITC QDITC; Rotary warehouse; Automation; Information management; SCADA； WMS