The Application of Laser Distance Measuring Technology in ASRS Aisle Stacker Crane Systems
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- Zoe
- Issue Time
- Sep 23,2024
Summary
In modern logistics and warehouse management, automated storage and retrieval systems (ASRS) have become essential for maximizing space utilization and improving operational efficiency. This article introduces several types of automated warehouses and delves into the application of laser distance sensors in stacker crane systems.
In modern logistics and warehouse management, automated storage and retrieval systems (ASRS) have become essential for maximizing space utilization and improving operational efficiency. This article introduces several types of automated warehouses and delves into the application of laser distance sensors in stacker crane systems.
Types of Automated Storage and Retrieval Systems (ASRS)
Automated storage and retrieval systems (ASRS) come in various types, each designed to handle specific storage and retrieval tasks. Here are some common types of ASRS:
1. Stacker Crane ASRS
A stacker crane ASRS uses a stacker crane equipped with forks to handle the storage and retrieval of goods. The crane moves along tracks and vertically along its mast to access specific storage positions. This type of ASRS is widely used for pallet and small-item storage, including:
• Pallet Stacker Crane ASRS: Ideal for storing large quantities of goods, allowing pallets to be quickly stored and retrieved.
• Miniload ASRS: Designed for managing small-item storage, using totes or bins as storage units.
2. Multilevel Shuttle ASRS
In multilevel shuttle systems, each level of shelving is equipped with a shuttle car that moves along a precision-guided rail system to handle storage and retrieval tasks on that level. This type of ASRS is suitable for high-density, multi-level storage.
3. Mother-Daughter Shuttle ASRS
The mother-daughter shuttle system offers enhanced flexibility. The mother shuttle travels along the main rail across multiple aisles, while the daughter shuttle detaches to enter a specific aisle for storage and retrieval. This system can also move between different levels using a lift, enabling multi-level operations.
4. Other ASRS Types
In addition to stacker cranes and shuttle systems, there are several other advanced automated warehouse systems, such as:
• Four-Way Shuttle ASRS
• 3D Shuttle ASRS
• Horizontal Carousel Systems
• Vertical Lift Modules (VLMs)
• Robotic-Integrated ASRS
• AutoStore Systems
• Rackless Vertical Storage Systems
The Role of Laser Distance Sensors in Stacker Crane ASRS
How Laser Distance Sensors Work in Stacker Cranes:
Automated storage and retrieval systems are highly intelligent and consist of high-rise racks, stacker cranes, conveyors, control systems, warehouse control systems (WCS), and warehouse management systems (WMS). These components work together to enhance storage efficiency, optimize space utilization, and fully automate the entire process, from inventory management to real-time data integration.
In the case of stacker crane ASRS, the stacker crane operates as the core equipment, moving along aisles between tall racks to perform storage, retrieval, and inventory tasks. To ensure accurate positioning and safe operation during high-speed movements, laser distance sensors play a crucial role.
Precise Positioning Laser distance sensors are mounted on the stacker crane to measure the distance between the crane and the racks. This real-time feedback allows the control system to ensure that the crane reaches the exact storage position for accurate loading and unloading operations.
Speed Adjustment As the stacker crane moves horizontally along tracks and vertically along its mast, the laser distance sensor continuously monitors the distance to surrounding objects, allowing the control system to adjust the crane's speed to ensure safe and efficient operations.
Collision Prevention During high-speed operations, laser distance sensors can detect obstacles or other equipment in the path of the crane. When a potential collision is detected, the system automatically triggers alarms or stops the crane to prevent accidents, ensuring warehouse safety.
Dynamic Distance Measurement The laser distance sensor provides real-time measurements of the changing distance between the stacker crane and a fixed reflector as the crane moves. This dynamic distance measurement is essential for ensuring precise positioning during fast movements.
Through the integration of laser distance measuring technology,
stacker crane ASRS systems can maintain high efficiency while ensuring accurate and safe operations. Laser sensors not only enhance the automation of the warehouse system but also reduce the risk of damage to goods and minimize equipment wear, making them a vital component of modern warehouse technology.
By optimizing operations with laser distance sensors, ASRS systems can significantly improve warehouse management, ensuring faster and more precise workflows, reducing downtime, and increasing overall safety. As automation continues to evolve in the logistics industry, the importance of advanced sensor technology like laser distance measurement will only grow.
Other Sensors Used in Automated Storage and Retrieval Systems (ASRS)
In addition to laser distance sensors, several other types of sensors are integral to the efficient operation of automated warehouses. These sensors contribute to various tasks, such as tracking, positioning, and ensuring safety:
RFID Sensors
RFID sensors use radio waves to automatically identify and track tags attached to goods. These sensors play a key role in inventory management by allowing real-time data updates on the location and status of goods within the warehouse.Barcode Scanners
Barcode scanners are widely used for identifying and tracking goods. These scanners read barcodes on products or containers, providing crucial data to warehouse management systems (WMS) to ensure accurate inventory records and operations.Infrared Sensors
Infrared sensors are often employed to detect objects or personnel in automated warehouses. They help prevent collisions by detecting obstacles in the path of moving equipment such as stacker cranes or shuttle cars.Ultrasonic Sensors
Ultrasonic sensors measure the distance to objects using sound waves. These sensors are particularly useful for detecting the presence of goods on shelves or pallets and ensuring the safe operation of moving vehicles within the warehouse.Proximity Sensors
Proximity sensors detect the presence of nearby objects without making physical contact. They are often used in collision prevention systems, ensuring that ASRS equipment can operate safely without risk of damage to goods or other machinery.Vision Sensors
Vision sensors are used for advanced tasks such as object recognition, quality control, and barcode reading. These sensors enable more complex automation processes by visually inspecting goods to ensure accuracy and consistency in the warehouse.Safety Laser Scanner
Safety laser scanner continuously scans the surrounding area, detecting obstacles or other equipment in real-time to prevent collisions during shuttle operations. It helps guide shuttles along predetermined paths, ensuring smooth and accurate movement between storage levels or aisles. (Learn more about the application of safety laser scanners in obstacle avoidance for shuttle systems)Related Optical Measurement Sensors
Measuring frequency: 1Hz-40Hz
Communication interface: RS232/RS485 (switchable)
Measuring distance: 0.2-100m
Measurement resolution: 1mm
Output method: NPN/PNP+analog+RS485
Resolution: 1mm
Laser type: red semiconductor laser Class II laser 655+10nm<1m
Reaction time: 50-200ms
Measure distance: 0.1-50m
Response time: up to 1.5ms
Repetitive accuracy: up to 10µm
5m distance, A technique that uses a laser beam to measure distance and create detailed maps of objects and environments.
Detection range: 350-6000 mm
Material: copper nickel plating, plastic fittings
Connection type: 5-pin M12 connector
Output method: RS485