Portable
HPZ 400 inductor
The HP- Z 400 in-line inductor is constructed for a pre-calculated water flow. It creates a pressure drop in the water pressure of about 30-33% at that flow. Foam is drawn through a 25 mm pick- up tube from a container at atmospheric pressure. The pre-set flow of foam concentrate is continuously added to the water stream. Friction loss through the hose and sta¬tic pressure loss of up to 5 bars does not influence the induction rate. A special control valve built into the base of housing produces this outstanding performance. A non-return valve prevents water flow back into the foam container once the water supply is turned off.HPZ 200 inductor
The HP- Z 200 in-line inductor is constructed for a pre-calculated water flow. It creates a pressure drop in the water pressure of about 30-33% at that flow. Foam is drawn through a 25 mm pick- up tube from a container at atmospheric pressure. The pre-set flow of foam concentrate is continuously added to the water stream. Friction loss through the hose and static pressure loss of up to 5 bars does not influence the induction rate. A special control valve built into the base of housing produces this outstanding performance. A non-return valve prevents water flow back into the foam container once the water supply is turned off.Z 400 inductor
The Z - 400 inline inductor is constructed for a pre-calculated water flow. It creates a pressure drop in the water pressure of only about 30-33% at that flow. Foam is drawn through a 25 mm pickup tube from a container at atmospheric pressure. The flow of foam concentrate is continuously added to the water stream. Friction loss through the hose and static pressure loss of up to 2 bars does not influence the induction rate. A non-return valve prevents water flow back into the foam container once the water supply is turned off.Z 200 inductor
The Z - 200 inline inductor is constructed for a pre-calculated water flow. It creates a pressure drop in the water pressure of only about 30-33% at that flow. Foam is drawn through a 25 mm pickup tube from a container at atmospheric pressure. The flow of foam concentrate is continuously added to the water stream. Friction loss through the hose and static pressure loss of up to 2 bars does not influence the induction rate. A non-return valve prevents water flow back into the foam container once the water supply is turned off.