Does a tandem press brake improve efficiency? - Ursviken

Yes, a tandem press brake system significantly improves efficiency in metal sheet processing operations. By combining multiple press brakes that work in synchronized coordination, tandem systems can handle longer and heavier workpieces than standard machines. This configuration eliminates the need for multiple operators and reduces material handling time, resulting in streamlined production workflows, decreased labor costs, and increased throughput for large-scale bending operations.

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Understanding tandem press brakes

In sheet metal fabrication, the quest for greater efficiency drives innovation in machinery and processes. Tandem press brake systems represent one such advancement that addresses the challenges of bending large, heavy, or lengthy workpieces. As manufacturers face increasing pressure to reduce production time while maintaining quality, many wonder if investing in tandem technology truly delivers meaningful efficiency improvements.

This article explores how tandem press brake systems work, the specific efficiency advantages they offer, and when this configuration makes sense for your manufacturing operation. We’ll examine the technology behind these systems and how they can transform your approach to metal forming tasks.

What is a tandem press brake system?

A tandem press brake system consists of two or more individual press brake machines positioned side by side and synchronized to function as a single, coordinated unit. Unlike standard press brakes that operate independently, tandem systems link multiple machines through advanced control systems that ensure perfectly synchronized movement during the bending process.

The primary components of a tandem press brake setup include:

• Two or more hydraulic press brakes arranged in sequence
• A unified CNC control system that coordinates all machines
• Synchronized hydraulic systems
• Interconnected electrical systems
• Specialized tooling designed for extended workpieces

This configuration effectively creates one exceptionally long press brake with the combined tonnage and bed length of all connected machines. For example, two 4-meter press brakes can function as a single 8-meter system, enabling the processing of parts that would be impossible on standard equipment.

How does a tandem press brake system operate?

Tandem press brake operation relies on precise synchronization between multiple machines to ensure accurate, consistent bends across the entire workpiece length. The hydraulic press brakes in a tandem configuration communicate constantly through an integrated control system that coordinates every aspect of their movement.

When an operator initiates a bend, the control system:

• Calculates the required force distribution across all machines
• Ensures rams move at identical speeds and to identical depths
• Monitors position feedback from each machine in real-time
• Makes micro-adjustments to maintain perfect alignment
• Coordinates backgauge positioning for accurate part placement

Modern tandem systems feature advanced CNC controllers that simplify operation, allowing a single operator to manage what would otherwise require multiple machines and personnel. The operator interfaces with the system through a single control panel, programming bends as if working with one machine rather than several.

Operation Mode Description Typical Applications Synchronized All press brakes operate as a single unit Extra-long workpieces spanning multiple machines Independent Each press brake functions separately Multiple smaller jobs processed simultaneously Partial Tandem Some machines synchronized, others independent Mixed production requirements

What efficiency benefits do tandem press brakes provide?

Tandem press brake systems deliver substantial efficiency improvements that directly impact productivity and operating costs. The primary efficiency advantages include:

Expanded workpiece capacity is perhaps the most obvious benefit. Tandem configurations can handle exceptionally long parts that would otherwise require specialized equipment or outsourcing. This capability brings previously outsourced work in-house, reducing costs and lead times.

Reduced material handling represents another significant efficiency gain. Without a tandem system, processing long workpieces might require:

• Multiple setups on different machines
• Repositioning workpieces between bends
• Additional operators to manage material movement
• Complicated coordination between workstations

Labor efficiency improves dramatically as a single operator can manage what would typically require several workers. This reduction in labor requirements not only decreases direct costs but also simplifies scheduling and training requirements.

Quality improvements result from consistent bending across the entire workpiece. Without synchronization between machines, achieving uniform bends on very long parts becomes extremely difficult, often leading to quality issues and rework.

Workspace optimization also contributes to efficiency. Despite their expanded capacity, tandem systems often require less floor space than multiple independent machines arranged for processing large parts.

When should you choose a tandem press brake solution?

Tandem press brake systems represent a significant investment, making it important to determine when this technology aligns with your manufacturing needs. Consider a tandem configuration when:

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Your production regularly includes large press brake work that exceeds standard machine capacities. If you frequently process parts longer than your current press brake capacity or outsource such work, a tandem system may quickly justify its cost through insourcing opportunities.

You need greater production flexibility to handle a diverse range of part sizes. Tandem systems can operate both as synchronized units for large parts and as independent machines for smaller components, providing versatility that dedicated long-bed machines cannot match.

Floor space limitations prevent installation of specialized long-bed machines. Tandem configurations can be separated when not processing large parts, allowing more efficient use of manufacturing space.

Your production volume of large parts justifies the investment. While tandem systems require higher initial investment than standard press brakes, the efficiency gains for high-volume operations typically deliver compelling returns.

A tandem solution may not be appropriate when:

• Large parts represent only a small percentage of your production
• Your existing equipment can handle most workpiece sizes
• Production volumes don’t justify the additional investment
• Your facility lacks the infrastructure to support multiple connected machines

Enhancing your metal processing capabilities

Tandem press brake technology represents a powerful solution for manufacturers seeking to improve efficiency when processing large or complex sheet metal components. The synchronized operation of multiple machines provides capabilities that exceed what’s possible with standard equipment, opening new possibilities for in-house production and expanded service offerings.

At Ursviken, we specialize in designing and manufacturing advanced press brake solutions, including sophisticated tandem systems that enhance productivity while maintaining exceptional bend quality. With over 135 years of industry experience, we understand the challenges of metal forming and develop customized solutions that address the specific requirements of each manufacturing operation.

Whether you’re considering expanding your capacity to handle larger workpieces or looking to streamline production of existing components, a properly configured tandem press brake system can transform your approach to metal forming tasks.

Tandem press brakes consist of two or more press brakes working in unison to bend longer pieces of metal than a single machine could handle. They are synchronized to perform simultaneous operations, ensuring a consistent bend across the entire length of the material.

1. Extended Bending Lengths: Tandem setups can handle exceptionally long workpieces by combining the capacities of individual machines. This is particularly useful in industries requiring large components, such as aerospace and construction.
2. Flexibility and Versatility: The ability to operate the machines independently or in tandem provides significant flexibility. When not working on long pieces, the machines can be used separately for smaller tasks, maximizing utilization.
3. Increased Productivity: By distributing the bending task between two machines, tandem press brakes can often complete jobs more quickly than a single, longer press brake. This can lead to higher throughput and improved productivity.
4. Improved Accuracy: Advanced synchronization technology ensures that tandem press brakes maintain precise alignment during operations, resulting in highly accurate bends across the entire length of the material.

1. Complex Setup and Calibration: Ensuring perfect synchronization between the two machines can be challenging. It requires precise calibration and regular maintenance to maintain accuracy.
2. Higher Initial Investment: The cost of purchasing and setting up two synchronized machines can be higher than a single long press brake. However, this can be offset by the increased flexibility and productivity.
3. Space Requirements: Tandem press brake setups can require more floor space, which might be a constraint in smaller workshops.

Single length press brakes are designed to handle specific lengths of metal, typically up to the maximum capacity of the machine. They are widely used in various industries for bending metals to precise angles and shapes.

1. Simplicity and Ease of Use: Single length press brakes are generally easier to set up and operate compared to tandem systems. They require less complex synchronization and maintenance.
2. Cost-Effective: For standard operations within the machine’s capacity, single length press brakes can be more cost-effective in terms of initial investment and operational costs.
3. Space Efficiency: These machines usually require less floor space compared to tandem setups, making them suitable for smaller workshops or facilities with limited space.

1. Limited Bending Length: The primary limitation is the maximum length of material that can be bent, which is confined to the machine's capacity. This can be a significant constraint for industries requiring longer bends.
2. Reduced Flexibility: Unlike tandem press brakes, single length machines cannot be easily adapted for different tasks or longer materials without compromising efficiency or requiring additional machines.
3. Potential for Higher Stress: Bending long or thick materials might exert higher stress on a single press brake, potentially reducing its lifespan or requiring more frequent maintenance.

Choosing between tandem press brakes and single length press brakes depends on the specific needs of a manufacturing operation. Tandem press brakes offer unparalleled flexibility and the capability to handle long workpieces, making them ideal for large-scale projects. On the other hand, single length press brakes provide simplicity, cost-effectiveness, and space efficiency, which are perfect for standard bending tasks within the machine’s capacity.

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