Plastic ventilation fittings are required wherever ventilation ducts are made of plastic due to chemical resistance, corrosion resistance or abrasion resistance.
As a specialist company, we offer molded ventilation parts made from various highly chemically resistant and abrasion-resistant plastics such as PVC-U, PPs, PPs-EL, PP-H, PE-HD and PVDF.
Patented manufacturing processes guarantee excellent fitting and dimensional accuracy. In our special catalog you will find all fittings required for the control, distribution and regulation of air flows up to PN 2.5.
Of course, our extensive product range also includes duct silencers and volume flow controllers.
Molded parts with dimensions in the range of pipe diameters Ø50 to Ø600 mm we deliver at short notice from our central warehouse.
Larger diameters can be custom-welded in segments on request.
All fittings are supplied with sockets as standard, but can also be fitted with flanges as an option.
The airtight connection from the pipe to the fitting with socket is made depending on the material, usually by bonding with solvent cement, welding with hot air and auxiliary wire or with special adhesive or sealing tapes.
Click here for our complete catalog of ventilation fittings.
These molded parts are available in:
- PP
- PPs and PPs-el
- PE and PE-el
- PVC-U
- PVDF
and are usually manufactured by injection molding and offer a variety of advantages for ventilation applications.
Properties of molded plastic ventilation components:
- Lightweight:
Plastics are lighter than metals, which makes handling, installing and transporting the molded parts easier. - Corrosion resistance:
Plastics are generally insensitive to corrosion, which makes them particularly suitable for use in damp environments or outdoors. - Moldability:
Plastics can easily be formed into different shapes, which opens up a wide range of design options for molded ventilation components. - Resistance to chemicals:
Many plastics are resistant to chemical influences, which increases their durability in various environments. - Insulating properties:
Plastics can have insulating properties, which can be an advantage for certain ventilation applications.
Typical plastic ventilation fittings:
- T-pieces and branches:
These fittings are used to direct the airflow in different directions and create branches in ventilation systems. - Bends and elbows:
These fittings allow changes of direction in the ventilation system and are particularly useful for avoiding obstacles. - Reducers and connectors:
These fittings are used to vary the diameter of the ventilation ducts and to connect different sections. - End pieces and terminations:
These fittings are used to terminate the air flow in a ventilation system and enable the termination of ducts or channels. -
Applications of molded plastic ventilation components:
- Residential and commercial buildings:
Ventilation fittings are used in ventilation systems in residential buildings, office buildings, schools and other facilities. - Industrial plants:
In industrial environments, molded ventilation components are used in large ventilation systems to ventilate production halls, warehouses and factories. - Air conditioning systems:
Ventilation fittings are used in air conditioning systems to control the air flow and ensure efficient cooling or heating. - Medical technology:
Plastic ventilation fittings can be used in specialized ventilation systems for laboratories or medical facilities. -
Advantages of ventilation molded parts:
- Cost-effectiveness:
molded ventilation components are often cheaper to manufacture than metal alternatives. - Easy installation:
The low weight of the plastic parts makes installation and transportation easier. - Versatility:
plastics offer a wide range of design options and can be adapted to different requirements. - Longevity:
Plastics are often durable and resistant to various environmental influences. -
The selection of ventilation fittings should be based on the specific requirements of the ventilation system, the operating conditions and the applicable industry standards. Quality assurance and cooperation with experienced manufacturers are also decisive factors for the successful integration of these fittings into ventilation systems.