Waypoint Business Partners + Concept Group LLC
Insulon® Vacuum Jacketed Hose
Engineered for extreme temperatures ranging from −270°C to 815°C.
No other vacuum jacketed hose on the market matches this operating range in a single hose platform.
Waypoint Business Partners represents Concept Group’s Insulon® vacuum jacketed hose systems, helping OEMs and engineering teams eliminate temperature loss, heat gain, and condensation to improve system consistency and overall performance.
Designed to improve thermal energy efficiency, Insulon helps maintain stable process temperatures across transfer points in cryogenic, chilled, heated, and high-temperature applications.
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Thermal Control
Engineered Thermal Performance
Insulon uses a vacuum-insulated annular space to eliminate conductive and convective heat transfer, the primary causes of temperature loss and heat gain in conventional transfer systems. This helps maintain stable process conditions while reducing energy loss and improving thermal efficiency.
Key Benefits
- Minimizes thermal losses
- Improves process consistency
- Reduces condensation and contamination
- Improves thermal energy efficiency
- Enhances safety around extreme temperatures
Extreme Temperature Option
Multi-Layer Insulation (MLI)
Insulon incorporates proprietary Multi-Layer Insulation (MLI) to reduce radiation heat transfer in extreme temperature applications.
MLI uses reflective layers within the vacuum space to help block radiant heat transfer, making it especially valuable for cryogenic and highly temperature-sensitive processes.
Cryogenic performance advantage:
Up to 45% reduction in boil-off loss in referenced cryogenic testing.
Test Data
Proven Cryogenic Performance
Insulon vacuum jacketed hose systems have demonstrated significantly lower boil-off compared with competing vacuum insulation systems in referenced LN₂ testing.
Application Fit
Applications for Insulon® Vacuum Jacketed Hose
Insulon is designed for demanding thermal transfer applications where temperature stability, cleanliness, efficiency, and system reliability are critical.
Liquid Nitrogen (LN₂)
Typical challenge: Boil-off losses, icing, condensation, and operator safety issues.
Insulon advantage: Reduces heat ingress to help minimize boil-off, prevent ice build-up, and improve safety.
Liquid Helium (LHe)
Typical challenge: Extremely high material cost and rapid boil-off from even small heat leaks.
Insulon advantage: MLI helps reduce radiation heat transfer and lower cryogenic material loss.
Chillers
Typical challenge: Sweating, insulation degradation, contamination, and reduced thermal efficiency over time.
Insulon advantage: Provides a non-fibrous, non-sweating, maintenance-free vacuum-insulated solution.
Process Heating & Cooling
Typical challenge: Heat loss or gain in transfer lines can create temperature drift and process instability.
Insulon advantage: Maintains fluid temperature across the transfer path for more stable process control.
High Temperature Fluids
Typical challenge: Conventional vacuum jacketed hoses often cannot perform at elevated temperatures.
Insulon advantage: Supports high-temperature applications up to 815°C in a sealed, compact design.
Deposition Gases
Typical challenge: Temperature fluctuations can lead to condensation, decomposition, or inconsistent deposition quality.
Insulon advantage: Helps maintain precise gas temperature from source to chamber.
Trust & Credibility
Built on Decades of Engineering Experience
Concept Group LLC has been engineering and manufacturing high-precision components since 1970. With over 50 years of experience, Insulon® technology is backed by proven design, rigorous manufacturing standards, and real-world application performance.
1970
Founded
50+ Years
Engineering Experience
Made in USA
Manufactured to High Standards