Description Burkert Valve Type 5406 valves are pilot-controlled solenoid valves with servo pistons. Depending on the version, these valves can be used either as feed line or circulation valves. The valves fulfill the requirements of a safety shut off valve according to DIN EN 23553-1. It is approved by TÜV-Süd and certified by DIN Certco. […]
The Burkert 6240 valve is a servo-assisted piston valve. The stopper and plunger guiding tube are welded together to enhance pressure resistance and leak tightness. Various seal material combinations are available depending on the application. The housing design and surface quality enable maximum flow rates. The coils are molded with chemically resistant epoxy. An optional […]
Description Burkert 6281 valve is a servo-assisted solenoid valve of the S.EV series. A minimum differential pressure is always required for the function of the valve. Various diaphragm material combinations and methods of operation are available depending on the application. Burkert 6281 Servo-assisted General Descriptions The standard brass housing satisfies all European drinking water requirements. […]
Many fluidic processes moving closer to where they are actually required. In the field of medical devices, for example, treatments such as dialysis can be provided to patients in convenient surroundings at home. Washing units in analytical equipment are positioned on the pipetting arm or directly on the print head in printing applications. This imposes […]
The Burkert Type 6407 piston valve is servo-assisted. The fixed coupling between the pilot valve and piston provides an opening of the valve without pressure difference. As a piston valve, the Type 6407 is particularly suitable for media such as gas and steam. As well as liquids with low operating temperature below 0°C. The stopper […]
The Burkert valve 6026 is a direct-acting, media-separated 2/2-way plunger valve. The thermal and hermetic isolation of the coil and body by means of stainless steel bellows allows both extreme medium temperatures as well as aggressive media. This design avoids the build-up of condensation between the fluid part and coil or an unacceptable heating up […]