The present invention relates to a proportional emulsion valve (1), configured to be used inside a fluid treatment machine, comprising a main body (2) in which an inlet duct (3) is defined, operatively connectable to the hydraulic circuit of a fluid treatment machine and configured to allow the entrance into said valve (1) of a fluid at a pressure higher than atmospheric pressure, and an outlet duct (4) operatively connectable to the hydraulic circuit of the machine and configured for the expulsion of the fluid from the valve (1), the inlet duct (3) and said outlet duct (4) being in fluid communication one another, the valve (1) comprising a slider (7) selectively positionable in an opening position, in which it allows the fluid communication between the inlet duct (3) and the outlet duct (4), and being selectively positionable, against the pressure exerted by a fluid when it is contained in the inlet duct (3), in a closing position in which the fluid communication between the inlet duct (3) and the outlet duct (4) is interrupted due to direct or indirect action of the slider (7), the slider (7) being operatively connected to an actuating system (9) comprising a driving element (10) configured to selectively exercise on the slider (7) a desired closing force (11) which tends to bring it towards the closing position; the driving element (10) is configured to exert the closing force (11) on the slider (7) through an elastic element (12) interposed between the driving element (10) and the slider (7) and configured to elastically force the slider (7) towards the closing position.

A valve includes a valve housing defining a fluid flowpath therethrough, a valve element located in the valve housing and movable in the fluid flowpath to regulate a fluid flow therethrough, and a valve actuator operably connected to the valve element to urge movement of the valve element in the fluid flowpath. The valve actuator includes an actuator housing, a volume of paraffin located in the housing, and an actuator rod located in the actuator housing and operably connected to the valve element, such that phase change of the paraffin urges movement of the actuator rod between a first position and a second position, thereby moving the valve element between a retracted position and an extended position.

A valve includes a valve housing having first and second regions, at least one valve chamber configured to be pressurized with air and including an actuating element for opening and closing a valve opening and an actuator for actuating the actuating element, both arranged in the first region. A printed circuit board extends into each valve chamber and to electrically operate the actuator, the printed circuit board(s) being connected to a common main printed circuit board arranged in the second region. Each valve chamber is surrounded by boundary surfaces closing the valve chamber in a substantially gas-tight manner. An open space open to at least two oppositely disposed sides of the valve housing extends between at least two of the valve chambers, and a connecting member of the printed circuit boards extends through connecting openings of the boundary surfaces of adjacent valve chambers and the open space. A sealing material located in the open space encloses the connecting member and the connecting openings in a gas-tight manner at least in the direction of the oppositely disposed sides. A method of manufacturing such a valve includes manufacturing a conductor element including the printed circuit boards and the main printed circuit board; introducing the conductor element into the valve housing; and filling the open space at least in part with the sealing material from at least one side after the introducing step so that the sealing material seals the connecting member and the connecting openings in a gas-tight manner at least in the direction of the oppositely disposed sides.

This disclosure relates to a system including a valve, a control unit, and a thermal element. The thermal element is selectively operable in response to instructions from the control unit to control a position of the valve. The control unit is operable in a static mode and a dynamic mode. In the static mode, the valve position is held substantially constant. In the dynamic mode, the valve position is adjusted in response to a valve outlet condition.

A dual latching microvalve is capable of a metastable state, wherein a one or more complete flow paths are open, before switching to another state that allows only an inlet or outlet valve to be open at any time on any fluid path. One valve mechanism uses a cam to alternately open and close two valves, with an external force applying pressure to move one valve arm onto a resting position on the cam, thereby opening the closed valve and provided an uninterrupted flow path through the dual latching microvalve. The metastable state provides, for example, a means to prime the pump before operation, such as pumping of insulin into a patient. When released from the metastable state, the dual latching microvalve operates in a fashion whereby opening of both valves simultaneously is prevented, thereby protecting the patient from injury.

An air valve comprises a casing, a valve body driving assembly and a valve body. The casing comprises a chamber, a vent hole, and at least one switching hole communicating with the chamber. The valve body driving assembly is disposed in the chamber, and comprises a pusher, a shape memory metal wire in a linkage relationship with the pusher, and two conductive members disposed in the casing and located at two ends of the shape memory metal wire respectively, the pusher travels a uniaxial displacement stroke due to a temporary change of the shape memory metal wire. The valve body is disposed in the chamber and faces the switching hole, when the pusher travels the uniaxial displacement stroke, the valve body is driven to rotate a central angle relative to the switching hole to change a ventilation state between the switching hole and the chamber.

A fluidic valve having a first zone and a second zone separated by an aperture that is sealed by a deformable element, where: in the first zone, there is a shape memory alloy (SMA) wire secured to a stationary surface and the SMA acts on a first surface of the deformable element either directly or through a piston; in the second zone, there are at least two ports and a plunger connected to a second surface of the deformable element, opposite to the first surface, and suitable to close one of the ports; and there is a bypass channel that permanently connects the first zone to the second zone through a first end aperture positioned in the first zone and a second end aperture positioned in the second zone.

The present disclosure provides an aerosol delivery device and a cartridge for an aerosol delivery device. In various implementations, the cartridge may comprise a housing defining a liquid reservoir, an atomizer configured to produce an aerosol, the atomizer comprising a first liquid transport element, a second liquid transport element, and a microvalve located between the liquid reservoir and the second liquid transport element. The microvalve may comprise a base member including at least one channel, and an actuating member at least a portion of which comprises a shape-memory material, and which is configured to move between a first position and a second position, wherein in the first position, the actuating member substantially blocks fluid flow from the liquid reservoir through the channel, and in the second position, the actuating member allows fluid flow from the liquid reservoir through the channel and to the second liquid transport element.

The present invention is inherent to an actuator subassembly comprising at least one bendable slender structure (12) mounted on a stationary body base (11) and carrying on a first surface an installation feature (17) and a plug (16) in its distal portion, the bending of the slender structure (12) being controlled by a shape memory alloy wire (13) through coupling means (15) located in its distal portion on a second surface opposite to the first surface. The invention also concerns a fluidic valve incorporating such an actuator subassembly.

A valve includes a valve housing defining at least one first opening and at least one second opening, the valve housing enclosing a valve chamber. An actuator with a positioning element is configured for opening or closing the valve. Also provided are at least one air mass measuring device for measuring an air mass flowing through the valve or at least one measuring wire of an air mass measuring device for measuring an air mass flowing through the valve. A valve arrangement and a seat comfort system are also disclosed.