• DESCRIPTION
  • SPECIFICATIONS

SINGLE MANIFOLD SYSTEMS

These are ideal for stable wall fixing of a powerful delivery reducer, to then be connected to the cylinder or to the cylinder pack by means of a flexible one. As this reducer is rather heavy and bulky, it would otherwise be complicated to have to fix it and remove it from the cylinder or the cylinder pack every time the gas is depleted.

TWIN MANIFOLD SYSTEMS

These are ideal for stable wall fixing of a powerful delivery reducer and for having two separate inlets to obtain a gas reserve system, connecting for example a cylinder pack at inlet 1 and a cylinder at inlet 2, to be activated during a pack changeover to avoid any interruptions in operating processes. It is also possible to connect the manifold to a decompression panel via a flexible hose.

TRIPLE MANIFOLD SYSTEMS

These are ideal for having 3 separate inlets for connecting for example 3 cylinders for good gas autonomy.
The manifolds can be connected both to a decompression panel via a flexible hose and directly to a powerful delivery reducer.

code 191810

code 191820

code 191830

SINGLE MANIFOLD SYSTEMS

CODEDescriptionP1 max. (bar)InletOutletWeight (kg)No.Pcs.
*Fuel Gas= H 2 - C 3 H 8 - C 4 H 10 
191810O2 and inert gas single manifold system300W21.8x1/14”W21.8x1/14”1.351
192810Acetylene single manifold system25G5/8”LhG5/8”Lh1.351
193810Fuel gas* single manifold system300W20x1/14”LhW20x1/14”Lh1.351

TWIN MANIFOLD SYSTEMS

CODEDescriptionP1 max. (bar)InletOutletWeight (kg)No.Pcs.
191820O2 and inert gas twin manifold system300W21.8x1/14”W21.8x1/14”3.201
192820Acetylene twin manifold system25G5/8”LhG5/8”Lh3.201
193820Fuel gas twin manifold system300W20x1/14”LhW20x1/14”Lh3.201

TRIPLE MANIFOLD SYSTEMS

CODEDescriptionP1 max.(bar)InletOutletWeight (kg)No.Pcs.
191830O2 and inert gas triple manifold system300W21.8x1/14”W21.8x1/14”5.101
192830Acetylene triple manifold system25G5/8”LhG5/8”Lh5.101
193830Fuel gas triple manifold system300W20x1/14”LhW20x1/14”Lh5.101