Suspension Trainer Design & Load-Bearing Textile System Development | Myokore

Suspension training products operate under constant tension and repeated stress. The product needed to:

• Support full body weight under dynamic load
• Maintain structural integrity over repeated use cycles
• Ensure safety across all connection points
• Provide a comfortable and intuitive user interface
• Withstand abrasion and environmental exposure
• Be manufacturable with consistent quality

Unlike carry products, failure here is not cosmetic — it’s functional and safety-critical.

studioFAR led the textile system design and product development, including:

• Load-bearing construction strategy
• Strap and connection system design
• Material selection for strength and durability
• Reinforcement and stress-point engineering
• Ergonomic interface design
• Design for manufacturing (DFM)

The focus was on creating a reliable system that performs under load without failure.

1. Load-Bearing System Design

The product needed to support dynamic human movement under tension.

We developed:

• Reinforced load paths throughout the system
• Structural layering for strength and redundancy
• Secure connection points designed for repeated stress

Every component was designed to handle load safely.

2. Material & Strength Strategy

Material selection was critical to performance.

We prioritized:

• High-tensile strength textiles
• Durability under friction and wear
• Consistency across production batches
• Compatibility with manufacturing processes

Material decisions directly impacted safety and longevity.

3. Reinforcement & Stress-Point Engineering

Failure typically occurs at connection and stress zones.

We engineered:

• Reinforced stitching patterns
• Layered construction at high-load points
• Redundant strength in critical areas

This ensured long-term reliability under repeated use.

4. Human Interaction & Usability

The system needed to be intuitive and comfortable.

We designed:

• Ergonomic grip and contact points
• Clear adjustability
• Efficient setup and use

Performance products must work seamlessly with the user.

5. Design for Manufacturing (DFM)

Despite performance requirements, the product was developed for scalable production.

This included:

• Repeatable construction methods
• Alignment with factory capabilities
• Controlled assembly processes

The goal was consistent quality across units.

Textile-based fitness products often fail due to:

• Underestimating load and stress over time
• Weak reinforcement at connection points
• Inconsistent material performance
• Designs that don’t translate cleanly to manufacturing

These issues create safety risks and product failure.

The Myokore Suspension Trainer delivers:

• A reliable load-bearing textile system
• Durable construction under repeated stress
• Safe and intuitive user interaction
• A manufacturable product platform