GUANGDONG XIEDA INTELLIGENT EQUIPMENT CO., LTD.
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Address: Foshan City, Nanhai District, Shishan Town, Guanyao Ligang Zixia Industrial Zone
Four-way shuttle racking
The company mainly produces and operates: various types of racking, product types range from unmanned fully automatic automated three-dimensional warehouses, semi-automatic shuttle racking systems, to small supermarket self-selection racking, and related logistics peripheral equipment (such as: storage cages, pallets, etc.).
Product Introduction
Overall Planning and Design
The primary step in designing a four-way shuttle racking system is overall planning and design. This stage requires clarifying key parameters such as the scale of the racking system, the characteristics of the stored goods, storage capacity, and the frequency of inbound and outbound operations. In the overall planning, the storage area, picking area, and temporary storage areas for inbound and outbound goods should be reasonably divided to ensure smooth logistics flow between areas without interference.
Mechanical Equipment Selection
The core equipment of a four-way shuttle racking system is the four-way shuttle car. When selecting a shuttle car, factors such as its load capacity, speed, positioning accuracy, battery life, and maintenance costs should be considered. In addition, auxiliary equipment such as shelves, conveyors, and sorting systems should be equipped to meet the efficient storage, retrieval, and sorting needs of goods.
Rack Structure and Layout
The design of the rack structure and layout should fully consider the safety, stability, and space utilization rate of goods storage. The shelf design should comply with national standards to ensure structural stability; goods storage should follow the "first-in, first-out" or "first-in, last-out" principle to avoid goods expiration or damage; at the same time, the storage area of goods should be reasonably divided to facilitate path planning and operation of the shuttle car.
Control System Design
The control system is the brain of the four-way shuttle racking system, responsible for functions such as shuttle car path planning, job scheduling, and inventory management. The control system design should have high reliability, real-time performance, and scalability to adapt to various complex situations that may arise during racking operations.
Warehouse Management System
The warehouse management system is the key to achieving automated, informational, and intelligent management of the racking system. The system should have functions such as goods inbound, outbound, inventory query, and report generation, and should be able to seamlessly connect with upstream procurement systems and downstream sales systems to achieve real-time synchronization and sharing of data.
Energy-Saving and Environmental Protection Measures
When designing a four-way shuttle racking system, energy-saving and environmental protection factors should be fully considered. For example, selecting energy-efficient and environmentally friendly shuttle cars and auxiliary equipment; optimizing the rack structure to reduce energy consumption such as air conditioning and lighting; reasonably planning the storage and operation process of goods to reduce ineffective operations and energy consumption.
Post-Maintenance and Upgrades
To ensure the long-term stable operation of the four-way shuttle racking system, a complete post-maintenance and upgrade plan should be formulated. Regularly maintain and maintain the shuttle car and other equipment to ensure good performance; upgrade and transform the racking system according to business development needs and technological advancements to improve its performance and functions.
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- Commodity name: Four-way shuttle racking
Overall Planning and Design
The primary step in designing a four-way shuttle racking system is overall planning and design. This stage requires clarifying key parameters such as the scale of the racking system, the characteristics of the stored goods, storage capacity, and the frequency of inbound and outbound operations. In the overall planning, the storage area, picking area, and temporary storage areas for inbound and outbound goods should be reasonably divided to ensure smooth logistics flow between areas without interference.
Mechanical Equipment Selection
The core equipment of a four-way shuttle racking system is the four-way shuttle car. When selecting a shuttle car, factors such as its load capacity, speed, positioning accuracy, battery life, and maintenance costs should be considered. In addition, auxiliary equipment such as shelves, conveyors, and sorting systems should be equipped to meet the efficient storage, retrieval, and sorting needs of goods.
Rack Structure and Layout
The design of the rack structure and layout should fully consider the safety, stability, and space utilization rate of goods storage. The shelf design should comply with national standards to ensure structural stability; goods storage should follow the "first-in, first-out" or "first-in, last-out" principle to avoid goods expiration or damage; at the same time, the storage area of goods should be reasonably divided to facilitate path planning and operation of the shuttle car.
Control System Design
The control system is the brain of the four-way shuttle racking system, responsible for functions such as shuttle car path planning, job scheduling, and inventory management. The control system design should have high reliability, real-time performance, and scalability to adapt to various complex situations that may arise during racking operations.
Warehouse Management System
The warehouse management system is the key to achieving automated, informational, and intelligent management of the racking system. The system should have functions such as goods inbound, outbound, inventory query, and report generation, and should be able to seamlessly connect with upstream procurement systems and downstream sales systems to achieve real-time synchronization and sharing of data.
Energy-Saving and Environmental Protection Measures
When designing a four-way shuttle racking system, energy-saving and environmental protection factors should be fully considered. For example, selecting energy-efficient and environmentally friendly shuttle cars and auxiliary equipment; optimizing the rack structure to reduce energy consumption such as air conditioning and lighting; reasonably planning the storage and operation process of goods to reduce ineffective operations and energy consumption.
Post-Maintenance and Upgrades
To ensure the long-term stable operation of the four-way shuttle racking system, a complete post-maintenance and upgrade plan should be formulated. Regularly maintain and maintain the shuttle car and other equipment to ensure good performance; upgrade and transform the racking system according to business development needs and technological advancements to improve its performance and functions.
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Foshan City, Nanhai District, Shishan Town, Guanyao Ligang Zixia Industrial Zone
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