Five Significant Advantages of Unit Load AS/RS - Swisslog Global

What are the Primary Types of Automated Storage and Retrieval Systems (AS/RS)

Automated Storage and Retrieval Systems (AS/RS) are advanced solutions designed to optimize the storage, retrieval, and management of inventory within a warehouse or distribution center. These systems can be categorized into different types based on the size and weight of the items they handle: 

If you are looking for more details, kindly visit our website.

• Unit Load, 
• Mini Load, and 
• Micro Load. 

While the core components of AS/RS systems share similarities across these types, each has unique elements tailored to its specific operational requirements.

At the heart of any AS/RS are the storage racks or structures, which provide the physical space to store items. These racks are designed to accommodate various sizes and weights, depending on the system type, ensuring that items are securely and efficiently stored. Working in tandem with the storage racks are the Storage and Retrieval Machines (SRMs), which are mechanized systems that move along aisles to retrieve and store items within these racks. The size, speed, and load capacity of SRMs vary significantly between different AS/RS types, adapting to the demands of each system.

For instance, Unit Load systems, which handle large and heavy items like pallets, require robust and high-capacity SRMs, while Mini Load systems prioritize speed and efficiency for medium-sized items stored in totes or cartons. Micro Load systems, dealing with small and lightweight items, use highly precise SRMs capable of handling small parts with agility.

Conveyors and other material handling systems play a crucial role in all AS/RS types, facilitating the movement of items to and from the SRMs. These systems link storage areas with picking, packing, or shipping stations, ensuring a smooth flow of materials throughout the warehouse. The complexity and design of these conveyors differ according to the type of AS/RS; for example, Unit Load systems use conveyors and other material handling systems play a crucial role in all AS/RS types, facilitating the movement of items to and from the SRMs. These systems link storage areas with picking, packing, or shipping stations, ensuring a smooth flow of materials throughout the warehouse. The complexity and design of these conveyors differ according to the type of AS/RS; for example, Unit Load systems use heavy-duty pallet conveyors, while Mini and Micro Load systems incorporate lighter, more specialized handling systems for totes, cartons, or small bins. while Mini and Micro Load systems incorporate lighter, more specialized handling systems for totes, cartons, or small bins.

In addition to the physical components, control systems, often referred to as Warehouse Control Systems (WCS), are integral to the operation of any AS/RS. These systems manage the movement of SRMs, track inventory, and ensure the accurate storage and retrieval of items. The sophistication of these control systems varies, with more advanced software used in larger and more complex AS/RS setups. Safety systems, including sensors, barriers, and emergency stop mechanisms, are also critical across all AS/RS types, ensuring the protection of both operators and equipment during system operation.

Each type of AS/RS also includes components specific to its operational needs. For instance, Unit Load systems are equipped with heavy-duty storage racks and high-capacity SRMs designed to handle large, bulky items. In contrast, Mini Load systems focus on speed and efficiency, utilizing lighter storage racks and high-speed SRMs to manage medium-sized goods. Micro Load systems, designed for small, lightweight items, incorporate specialized components such as drawer systems and small part handling SRMs, which offer high-density storage and precise handling.

While the foundational components of AS/RS—such as storage racks, SRMs, conveyors, control systems, and safety features—are consistent across different types, the specific design and additional elements are adapted to meet the unique demands of Unit Load, Mini Load, and Micro Load systems. Each type of AS/RS is tailored to optimize the storage and retrieval process for different sizes and weights of inventory, ensuring that warehouses can operate efficiently and effectively in managing their diverse range of goods.

Pallets are primarily associated with Unit Load AS/RS, but they are not exclusively used in this type of system. In Unit Load systems, pallets are the standard method for storing and transporting large, heavy items. These systems are designed to handle full pallets of goods, typically loaded with products that require bulk storage. The pallets are moved by high-capacity Storage and Retrieval Machines (SRMs) and are stored in robust racking systems that can support the significant weight of palletized goods.

While Mini Load systems are primarily designed to handle smaller loads such as totes, cartons, or trays, they can sometimes be configured to manage smaller pallets or half-pallets. However, this is less common and usually depends on the specific design and requirements of the system. The focus in Mini Load systems is more on speed and efficiency in handling medium-sized items.

Micro Load systems are typically not designed to handle pallets at all. Instead, they focus on very small, lightweight items, often stored in bins, trays, or drawers. The scale and precision required for handling micro loads make pallet handling impractical and unnecessary in these systems.

2. Vital components of a Unit Load AS/RS

2.1 Stacker cranes for pallets

Stacker cranes for pallets are vital components of Automated Storage and Retrieval Systems (AS/RS) in warehouses and distribution centers, designed to handle and transport palletized goods efficiently. These automated machines operate within designated aisles, moving both vertically and horizontally to store or retrieve pallets in high-density storage environments. Operating on rails installed along the warehouse floor, stacker cranes can navigate aisles with precision, lifting pallets to various storage levels, and are controlled by a Warehouse Management System (WMS) that ensures accurate and efficient operations. There are several types of stacker cranes, including single-deep, double-deep, and multi-deep, each offering different levels of selectivity and storage density, and they are typically capable of handling heavy loads, often up to several tons per pallet.

The primary advantage of pallet stacker cranes lies in their ability to maximize space efficiency by utilizing vertical storage space, which would be challenging to access manually. Automation is another significant benefit, as these cranes reduce the need for manual labor, thereby increasing operational efficiency and minimizing the risk of human error. Stacker cranes are also highly reliable, capable of continuous operation, and are particularly well-suited for high-throughput environments in large warehouses, manufacturing plants, and distribution centers where the automated handling of palletized goods is essential.

However, the implementation of stacker cranes comes with certain disadvantages. The initial investment for installing these cranes, along with the necessary infrastructure, can be quite high, which might be a barrier for some operations. Additionally, stacker cranes are generally fixed to specific aisles, limiting their flexibility and adaptability to changes in warehouse layout. This fixed-path operation may restrict the system's ability to reconfigure storage spaces or adapt to different operational needs.

In summary, stacker cranes for pallets are crucial for the efficient handling and storage of large, heavy items in high-density storage environments, particularly within Unit-Load AS/RS. While they offer significant advantages in terms of space utilization, automation, and reliability, they also require a substantial initial investment and may have limited flexibility in terms of operational adaptability.

2.2 Fixed-aisle or moveable-aisle systems?

In a Fixed Aisle AS/RS, the storage and retrieval system is permanently aligned with specific aisles. The cranes or shuttles are restricted to operate within their designated aisle, moving vertically and horizontally within that aisle to access storage locations. This design is common in high-density storage environments where maximizing space utilization is crucial, and the system is optimized for high-throughput operations with predictable and repetitive patterns.

The advantages of a Fixed Aisle systems are highly reliable and efficient for specific, high-volume operations. They offer stability and are typically less complex, which can result in lower maintenance requirements. They also maximize storage density because the aisles can be very narrow.
However, the lack of flexibility in aisle access means that the system is less adaptable to changes in operational needs. If an aisle or crane is down for maintenance, that entire section of the warehouse may become inaccessible, potentially disrupting operations.

A Moveable Aisle AS/RS allows greater flexibility by enabling the retrieval system to access multiple aisles. This is typically achieved through a mechanism that allows the aisles or the retrieval device itself to shift, thus providing access to different parts of the storage area as needed. Moveable aisle systems are less common than fixed aisle systems and are generally more complex and expensive.

The primary advantage of moveable aisles is their flexibility. They allow better access to different storage areas, which can be particularly useful in operations with varying storage needs or where aisle access must be dynamically allocated based on demand. They can also enhance system redundancy, as the failure of one retrieval system does not necessarily make a section of the storage area inaccessible.

The complexity and cost of moveable aisle systems are significant. The mechanical components required to enable movement add to the system's maintenance needs and potential points of failure. Additionally, the storage density might be slightly reduced compared to fixed aisle systems because space must be allocated for the movement of aisles or equipment.

In a Unit-Load AS/RS, the choice between fixed and moveable aisles depends on the specific operational requirements of the facility. Fixed aisle systems are often preferred for operations with consistent, high throughput demands, where maximizing storage density is a priority. Moveable aisle systems might be chosen in environments where flexibility and access to different storage areas are more critical, despite the higher costs and complexity involved.

Ultimately, the decision between these configurations should be based on a thorough analysis of the facility’s inventory patterns, space constraints, and long-term operational goals.

2.3 Deep-lane storage systems

A Deep-Lane Storage System is a type of high-density storage solution used in warehouses and distribution centers where maximizing storage capacity is crucial. It involves storing multiple pallets or unit loads deep within a storage lane, rather than just a single pallet per position. This system is typically used in conjunction with specialized material handling equipment, such as automated shuttles, forklifts, or automated storage and retrieval systems (AS/RS), to access the pallets.

Deep-lane storage systems are designed to optimize high-density storage in warehouses by allowing multiple pallets to be stored deep within each lane, often ranging from 2 to 10 or more pallets. This approach significantly increases storage density compared to single-deep or double-deep systems, making it ideal for environments where maximizing space is a priority. Depending on the specific configuration, deep-lane systems can operate under either First-In, First-Out (FIFO) or Last-In, First-Out (LIFO) inventory management principles. FIFO is particularly advantageous for perishable goods, ensuring that the oldest inventory is used first, while LIFO is suitable for non-perishable goods where the most recently stored items are retrieved first. These systems can be operated manually, using forklifts, or automated, utilizing shuttle systems that travel within the lanes to load and unload pallets. They are commonly used in industries with high volumes of homogeneous products, such as food and beverage, chemicals, or other bulk storage scenarios where the efficiency of space usage outweighs the need for immediate access to individual pallets.

The primary advantages of deep-lane storage systems include their ability to maximize warehouse space by reducing the number of aisles needed. By allowing pallets to be stored deeply within lanes, these systems significantly increase the amount of storage space available, making them ideal for high-volume storage of similar products. The reduction in aisle requirements directly translates to more space for pallet storage, which can be a critical advantage in space-constrained environments.

However, deep-lane storage systems also come with some disadvantages. One of the main challenges is the issue of selective access. To access pallets stored deeper within the lane, it is often necessary to move the front pallets, which can reduce operational efficiency if there is frequent need to retrieve different pallets. This issue is particularly pronounced in LIFO configurations, where the last pallet stored is the first one retrieved, making it difficult to manage inventory that requires more precise access. Additionally, managing inventory in deep-lane systems can be complex, requiring careful planning to avoid problems like dead stock or difficult retrieval, especially in systems where LIFO is implemented.

While they offer significant benefits in terms of maximizing storage space and reducing aisle requirements, they also present challenges in terms of inventory management and operational efficiency, particularly when frequent access to different pallets is necessary.

3. The 5 Significant Advantages of a Unit Load AS/RS

Unit Load Automated Storage and Retrieval Systems (AS/RS) offer several significant advantages, particularly in maximizing space efficiency within a warehouse or distribution center. One of the key benefits is the system's ability to utilize vertical space effectively. By designing storage racks that extend upward and using narrow aisles, Unit Load AS/RS maximizes the cubic volume of a facility, allowing for high-density storage. This vertical utilization not only increases storage capacity but also reduces the need for extensive floor space, freeing up additional room for other operations or storage needs.

Another major advantage of Unit Load AS/RS is the improvement in throughput, driven largely by automation. These systems are equipped with advanced technologies that enable faster and more efficient storage and retrieval processes compared to manual methods. High-speed operation is a hallmark of these systems, as they can quickly and accurately move large, heavy loads, making them ideal for high-volume operations. The result is a significant increase in throughput, enabling facilities to handle larger quantities of goods more efficiently.

UNISTAR supply professional and honest service.

Enhanced inventory control is another benefit provided by Unit Load AS/RS. The integration of warehouse management systems (WMS) within these automated systems ensures real-time tracking of inventory, which improves accuracy and reduces errors in inventory management. Automation also plays a crucial role in minimizing human error, as the system ensures that items are stored and retrieved correctly. This leads to more reliable inventory data, which is essential for effective warehouse management and order fulfillment.

Labor cost reduction is a further advantage of Unit Load AS/RS, as the automation of many tasks reduces the need for manual labor. This not only cuts down on labor costs but also improves workplace safety by minimizing the manual handling of heavy items, which in turn reduces the risk of workplace injuries. Additionally, the consistency and reliability of these systems contribute to their appeal. Unit Load AS/RS can operate continuously with minimal downtime, providing consistent performance that businesses can rely on. The durability of these systems, designed for heavy-duty operations, ensures that they can handle large loads over extended periods with minimal wear and tear, making them a robust solution for long-term use.

Automated stacker cranes have become practically indispensable in Logistics 4.0 because they’re the perfect solution for boosting efficiency in warehouses with a high flow of movements. 

There are different types of stacker cranes available on the market — for both boxes and pallets — depending on the logistics needs of each company. Knowing all about the characteristics of an automated stacker crane will enable you to get the most out of your supply chain. 

Automated stacker cranes defined

Automated stacker cranes are handling equipment that moves horizontally and vertically in the storage aisles of a logistics facility. They’re tasked with transporting, storing, and retrieving goods from their locations in the racks by using extendable forks installed in the cradle of the machine. 

Stacker cranes can operate in single- or double-deep pallet racks, pallet flow racks, and can even work with a motorized shuttle (the automated Pallet Shuttle system). This equipment is a vital part of any automated storage and retrieval system (AS/RS) for pallets and is especially useful in warehouses with high-turnover products and continuous inflows and outflows.

Storage and extraction operations can be performed independently (simple cycle) or jointly (combined cycle). The simple cycle refers to the natural movement a stacker crane makes to store a single item. With the combined cycle, the stacker crane deposits a load and picks up another in a single movement. Thus, combined cycles reduce movements, streamlining flows.

Benefits of automated stacker cranes

The main advantages of automated stacker cranes are related to automation. As these machines work nonstop, the flow of movements increases considerably, while errors are minimized. In other words, they offer a high degree of efficiency and productivity. 

Another advantage of automated stacker cranes is space optimization, as they leverage every inch: they can move goods up to 148' high and move in aisles merely 5' wide, making it possible to create high-capacity facilities. 

Problems solved with an automated stacker crane

The implementation of automated stacker cranes represents a step forward for a company’s supply chain efficiency. That’s why businesses with high-turnover stock and constant entries and exits turn to this solution to speed up their storage operations.

Automation in an already existing warehouse

AS/RS trilateral stacker cranes allow for easy automation of facilities with pallet racks without modifying their structure. Since they don’t require an upper guide rail, they can be installed in any warehouse in which trilateral turret trucks are normally operated. The solution is extremely cost-effective when it comes to modernizing both already existing facilities and new buildings.

Disalfarm, a logistics company specializing in pharmaceutical products, swapped the trilateral turret trucks that served its pallet racks for 15 trilateral stacker cranes from the Mecalux Group. It did this to adapt to the increase in activity it was experiencing. Disalfarm Operations Manager Jaume Segrià says: “We now have maximum process efficiency and optimal safety for everyone inside the warehouse.”

Conventional warehouse over 131' tall

Standard forklifts are incapable of working in facilities requiring height to raise storage capacity. Therefore, automated stacker cranes are the only handling equipment that can operate with racking over 131' high.

Hayat Kimya, a leading manufacturer in the Eurasian fast-moving consumer goods market, built a new logistics center to manage the company’s heightened production and to cut goods inflow and outflow times. The solution consists of one of the tallest automated warehouses in Europe: 151' tall. 

Streamlined picking 

Reducing the time between the receipt of an order and its preparation is one of the biggest challenges facing logistics nowadays, even more so with the e-commerce boom and the rise of quick commerce (q-commerce). With a miniload system (AS/RS for boxes), you can have an automated storage system for smaller products that works in line with the goods-to-person order picking method. Instead of the operator having to move, the stacker crane brings the product to be included in the order directly to the pick station.

Tool manufacturer SAM Outillage gave its logistics operations a makeover with an AS/RS for boxes that enables it to prepare and deliver orders in just 24 hours. Automation minimizes errors and reduces the number of movements made in the warehouse. SAM Logistics Manager Candice Aubert says: “The automated warehouse from Mecalux has helped raise our productivity by 25%.”

Automation of a high-density warehouse

One of the best storage solutions for dealing with space shortages and optimizing surface area is to install a compact system. Stacker cranes speed up flows of goods with these types of racks, which have only the necessary working aisles, since the structure is compact. 

Finieco, one of Europe’s largest paper bag manufacturers, turned to the Mecalux Group for a storage system that would maximize space in its logistics center in Portugal and, at the same time, ensure a high throughput. After exploring various options, it decided on the automated Pallet Shuttle system served by an automated stacker crane. Now, the warehouse makes the best use of all available space. Plus, as it’s connected to the production zone, it’s capable of absorbing the daily manufacture of 1.5 million paper bags.

Uninterrupted work at low temperatures

The main drawback with cold storage and freezer warehouses is working with manual storage systems in extreme environmental conditions. Exposure to low temperatures for long intervals can adversely affect the health of operators.

To avoid this, automated stacker cranes are an excellent solution: they can operate at negative temperatures as low as -22 °F, automating the storage and retrieval of unit loads and, thus, significantly limiting employees’ exposure to the cold. Additionally, automation of cold storage warehouses guarantees hygiene in all logistics processes, a key factor in sectors such as the food and pharmaceutical industries.

Congelados Navarra, a leading European producer and marketer of deep-frozen vegetables, automated its four freezer warehouses in Fustiñana, Spain, with automated stacker cranes from the Mecalux Group. With this handling equipment, the business not only stores 160,000 pallets but has also streamlined movements in the goods loading and unloading processes.

Automation of product turnover

Ensuring optimal turnover of the SKUs stored by means of the FIFO (first in, first out) management method is a must when working with food, chemicals, or any other kind of product with an expiration date. One of the most common solutions for making sure the first pallet stored is the first to be dispatched are pallet flow racks. Typically used in conjunction with forklifts, operations can also be automated with a stacker crane. 

Cosmetic and hygiene product manufacturer EcoWipes looked to the Mecalux Group to speed up management of its high-demand raw materials. Hence, our company installed pallet flow racks served by a stacker crane. This machine travels down a 177-foot-long aisle continuously, placing the pallets in the assigned locations as quickly as possible.

Management of different unit loads

One of the great things about stacker cranes is their versatility and capacity for handling different types of unit loads, particularly pallets and boxes. Many companies need to automate the storage and retrieval of these two unit loads. 

Miguélez, a global benchmark in the manufacture of low-voltage electric cables, implemented two AS/RS (one for boxes and another for pallets) to store its various product types: drums, spools and reels. Automation has brought Miguélez numerous advantages, mainly increased productivity and availability, as it can now work 24 hours a day at maximum throughput. The two automated storage systems store over 38,500 tons of cable.

Stacker crane installation

The implementation of automated stacker cranes is conditioned by each company’s logistics needs, flows, operations, warehouse characteristics, and products. There’s a stacker crane for every storage height, for the number of cycles required, and for each type of good (covering various sizes and weights, up to 1.65 tons per pallet).

Interlake Mecalux has a wide selection of single-and twin-mast stacker cranes with different extraction systems. As a supplier, it offers models ranging from the MT-1, suitable for facilities with a lower height, to the MTB-7, reserved for warehouses up to 148' tall and with a high volume of goods movements.

Automated stacker cranes: maximum efficiency, safety, and performance

Investing in technology solutions such as automated stacker cranes is the best way to benefit from an effective supply chain and successfully tackle the major logistics issues facing businesses nowadays. In recent years, automated stacker cranes have become essential in Logistics 4.0.

Are you interested in learning more about stacker crane system? Contact us today to secure an expert consultation!