Stainless Steel Collectors
Stainless steel manifolds are designed to ensure the orderly, balanced, and safe distribution of heating circuits in underfloor heating systems. Thanks to their high-quality stainless steel body structure, they offer long service life, provide superior resistance to corrosion, and maintain system performance for many years.
The flow-controlled and thermostatic-adjusted stainless steel manifolds included in this category offer solutions for different control requirements. Flow-controlled stainless steel manifolds allow manual adjustment of the flow rate for each circuit, ensuring homogeneous heat distribution and system balance. Thermostatic-adjusted stainless steel manifolds, on the other hand, are compatible with thermostatic valves thanks to their spring-loaded system design and enable room-by-room automatic temperature control.
All connection components used in these products are manufactured with the patented GFS Connection Technology. This technology ensures high sealing performance and enhanced safety at connection points, supporting reliable and trouble-free system operation.
Patent Numbers: 2015/05940 – 2015/03708
Stainless steel manifolds are available with outlet options ranging from 2 to 6 circuits, allowing easy adaptation to different project requirements and space sizes. Compared to plastic piping systems, using approximately 1/3 less hose length means fewer outlets are required on the manifold; however, system flexibility is maintained by allowing the number of outlets to be increased when needed.
Product Code: FLR-KPD-(12-16)
Size: 1″
Product Code: FLR-KPT-(12-16)
Size: 1″
Stainless steel manifolds are essential plumbing components used to distribute heating circuits in underfloor heating systems in an orderly, balanced, and safe manner. Manifold systems directly affect underfloor heating performance and play a critical role in both energy efficiency and user comfort.
The thermostatically controlled stainless steel manifolds and
flow-controlled stainless steel manifolds included in this category are developed to meet different control requirements, offering high-quality and long-lasting solutions.
Thanks to their stainless steel body construction, both product groups are resistant to corrosion and can be safely used in residential, villa, office, and commercial projects.
Thermostatically controlled stainless steel manifolds are advanced manifold systems that enable automatic control of underfloor heating circuits. Featuring a spring-loaded system design, these manifolds are fully compatible with thermostatic valves, allowing room-by-room temperature control.
This ensures that the desired temperature level is maintained in each space, prevents unnecessary heating, and provides significant energy savings. Especially in buildings with different usage areas, thermostatically controlled manifolds deliver maximum comfort.
Flow-controlled stainless steel manifolds are systems that allow manual adjustment of water flow in underfloor heating circuits. The flow rate of each circuit can be controlled individually, ensuring balanced heat distribution and optimized system performance.
These manifolds are an ideal solution for projects where manual system adjustment is preferred in underfloor heating circuit distribution.
Compared to plastic piping systems, using approximately 1/3 less pipe length allows fewer outlets on the manifold. However, the number of outlets can be increased when required.
All stainless steel manifolds in this category are equipped with
Patented GFS Connection Technology in their connection components.
Patent Numbers: 2015/05940 – 2015/03708
This technology ensures high sealing performance at connection points, minimizes the risk of leakage after installation, and allows the system to operate safely for many years.
Stainless steel manifolds, whether thermostatically controlled or flow-controlled, provide reliable, efficient, and long-lasting solutions for underfloor heating systems. Selecting the correct manifold type according to project requirements offers significant advantages in both energy savings and user comfort.
