A solenoid valve has a valve member (43) which is operated between: a closed position in which the valve member abuts on a valve seat to block communication between ports (32 and 33); and an open position in which the valve member separates from the valve seat to enable communication between the ports (32 and 33). A fixed iron core (18) and a movable iron core (21), in which the movable iron core reciprocatively moves in axial directions, are disposed in a bobbin (13) of a solenoid (11). In a valve housing (12) provided with ports (31 to 33), a swing member (41) having a valve element is swingably attached, and a pivotal lever (51) is pivotally attached. The pivotal lever (51) is provided with: an actuating portion (53) abutting on one end of the swing member (41); and an effort portion (54) abutting on the tip end of the movable iron core (21), an opening/closing stroke of the valve member (43) is made larger than the moving stroke of the movable iron core (21).

A sealing diaphragm for a fluid valve is provided. The fluid valve includes a valve housing and a drive unit, the sealing diaphragm being of hat-like design and being configured for enclosing, on the free-end side, a portion of a valve-closing body which projects into the valve housing of the fluid valve. The sealing diaphragm can include a base portion which is configured to be rotationally asymmetrical on the outer circumferential side, the base portion being provided to abut in a form-fitted manner against an opening of the valve housing, and the base portion of the sealing diaphragm being configured to be received between the valve housing and the drive unit in such a way that the opening of the valve housing is sealed in a fluid-tight manner towards the drive unit.

The invention relates to a pneumatic solenoid valve comprising an air chamber (1), on which multiple air connections (2, 3, 5) are provided which can be connected via multiple switching positions of the solenoid valve by interconnecting the air chamber (1). The solenoid valve comprises a magnetic coil (6), a yoke (8) which is arranged on the magnetic coil (6) and made of soft magnetic material, and an armature (9) which can move relative to the yoke (8) and is made of soft magnetic material. The magnetic coil (6), the yoke (8) and the armature (9) are arranged within the air chamber (1). The armature (9) is arranged with respect to the yoke (8) such that, when the magnetic coil (6) is fed with current, said armature rotates about a single axis of rotation (A), by means of the magnetic force generated as a result, against a restoring force until the magnetic force corresponds to the restoring force. When the armature (9) rotates, the size of at least one overlapping region between the yoke (8) and the armature (9) changes, wherein an air gap (L, L) is formed between the yoke (8) and the armature (9) in the at least one overlapping region. The distance formed by the air gap (L, L) between the yoke (8) and the armature (9) remains substantially constant in the direction of rotation of the armature (9).

The invention relates to a pneumatic solenoid valve, comprising an electromagnetic actuator (6) and an air chamber (1) which is provided with multiple air connections (2, 3, 5) that can be connected with the interposition of the air chamber (1) via multiple switching positions of the magnetic actuator. The electromagnetic actuator can assume three different switching positions by energizing the actuator in a unipolar manner with three different current intensities. In a first switching position, a first sealing element (26) closes a first air connection (3), and a second sealing element (27) releases a second air connection (4). In a second switching position, the first sealing element (26) closes the first air connection (3), and the second sealing element (27) closes the second air connection (4). In a third switching position, the first sealing element (26) releases the first air connection (3), and the second sealing element (27) closes the second air connection (4). The first and second sealing element (26, 27) can be moved by the electromagnetic actuator via an actuation mechanism (11, 12, 24, 25, 28, 28; 29, 30) in order to open and close the first and second air connection (3, 4), and the actuation mechanism (11, 12, 24, 25, 28, 28; 29, 30) is designed such that only one of the first and second sealing element (27, 28) is moved when switching between the first and second switching position and when switching between the second and third switching position.

A fluidic control element comprising a housing in which a fluid space is formed makes provision that at least a first and a second flow channel open into said fluid space, at least one of the flow channels comprising a closable valve seat in the fluid space. A valve body which can be swiveled about an axle is able to be pivoted in the fluid space toward the valve seat. A drive system in the form of an electroactive polymer actuator is provided.

A valve assembly has a housing with a first inlet, a second inlet, a first outlet, and a second outlet. A first flow path is between the first inlet and the first outlet, a second flow path is between the second inlet and the first outlet, and a third flow path is between the first inlet and the second outlet. A closure element is movably supported in the housing and in a by-pass position opens the first flow path and closes at least the second flow path, and in a normal position closes the first flow path and opens the second flow path and the third flow path. A flow guiding element is on the closure element, and which in the normal position protrudes into the second flow path and is coupled to the closure element to urge, in a gas flow from the second inlet to the first outlet, the closure element into the normal position. An exhaust gas system includes the valve assembly and an exhaust gas heat exchanger.

In a solenoid valve having a magnetic drive including a housing which is at least partly formed from an injection molding compound, the magnetic drive includes a magnet coil having a winding, a magnet yoke, and a movably mounted magnet armature which is arranged outside the magnet coil. The housing has a first section which encloses the magnet coil having the winding and the magnet yoke, and the housing has a second section which encloses at least most of the movably mounted magnet armature. Further proposed are a battery having a plurality of solenoid valves, a method of manufacturing a solenoid valve, and a mold.

A fluidic control element comprising a housing in which a fluid space is formed makes provision that at least a first and a second flow channel open into said fluid space, at least one of the flow channels comprising a closable valve seat in the fluid space. A valve body which can be swiveled about an axle is able to be pivoted in the fluid space toward the valve seat. A drive system in the form of an electroactive polymer actuator is provided.