A blowing apparatus includes a housing including an accommodating space and one or more blowing holes and a vibration apparatus in the accommodating space, wherein the vibration apparatus includes a first active vibration member, a second active vibration member connected to an inner lateral surface of the housing and connected to intersect with the first active vibration member, and a passive vibration member between the one or more blowing holes and the first active vibration member and connected to the first active vibration member.

A blowing apparatus includes a housing including an accommodating space and one or more blowing holes and a vibration apparatus in the accommodating space, wherein the vibration apparatus includes a first active vibration member, a second active vibration member connected to an inner lateral surface of the housing and connected to intersect with the first active vibration member, and a passive vibration member between the one or more blowing holes and the first active vibration member and connected to the first active vibration member.

A miniature fluid control device is provided and includes a gas inlet plate, a resonance plate and a piezoelectric actuator. The resonance plate is assembled and combined with the gas inlet plate. The piezoelectric actuator is assembled and combined with the resonance plate. The piezoelectric actuator includes a suspension plate, an outer frame, at least one bracket and a piezoelectric plate. The suspension plate has a first surface and a second surface. The outer frame is arranged around the suspension plate and has an assembling surface. The piezoelectric plate is attached on the second surface. The at least one bracket is formed between the suspension plate and the outer frame as making the first surface of the suspension plate non-coplanar with the assembling surface of the outer frame, so that a specific chamber spacing is maintained between the first surface of the suspension plate and the resonance plate.

A diffusion pump is provided that includes a housing and a boiling chamber connected to the housing. The boiling chamber has a heating element. The housing has a nozzle that is connected to the boiling chamber. The housing also has a condenser is arranged at an internal surface, where the condenser has a cooling system. The boiling chamber is thermally isolated from the condenser by an isolator. The cooling system is at least partially a water cooling system and is connected to the heating element via a heat pump such that heat from the condenser is supplied to the heating element.

A diffusion pump is provided that includes a housing and a boiling chamber connected to the housing. The boiling chamber has a heating element. The housing has a nozzle that is connected to the boiling chamber. The housing also has a condenser is arranged at an internal surface, where the condenser has a cooling system. The boiling chamber is thermally isolated from the condenser by an isolator. The cooling system is at least partially a water cooling system and is connected to the heating element via a heat pump such that heat from the condenser is supplied to the heating element.

An air flow generating device includes an enclosing wall, a frame sheet, a cover film, and a vibrating part. The frame sheet is disposed inside an air flow passage formed by the enclosing wall and closely contacts the air flow passage by its periphery. The cover film includes a central connection portion fixed to a central portion of the frame sheet, and a plurality of movable cover portions connected to the central connection portion. The cover film is between the frame sheet and an outlet of the air flow passage. The movable cover portions selectively cover a plurality of through holes of the frame sheet. The vibrating part is fixed on the frame sheet. When the vibrating part vibrates, the central portion and the central connection portion move together with the vibrating part so that the movable cover portions seal the through holes or move relative to the through holes.

In one example an electronic device comprises at least heat generating component, a heat spreader positioned proximate the at least one heat generating component and a passive radiator cooling device, comprising an enclosure, an active speaker positioned at least partially within the enclosure, and a passive audio radiator positioned at least partially within the enclosure. Other examples may be described.

A piezoelectric actuator includes a square suspension plate, an outer frame, plural brackets and a square piezoelectric ceramic plate. The outer frame is arranged around the suspension plate. A second surface of the outer frame and a second surface of the suspension plate are coplanar with each other. The plural brackets are perpendicularly connected between the suspension plate and the outer frame for elastically supporting the suspension plate. Each bracket has a length in a range between 1.11 mm and 1.21 mm and a width in a range between 0.2 mm and 0.6 mm. A length of the piezoelectric ceramic plate is not larger than a length of the suspension plate. The piezoelectric ceramic plate is attached on a first surface of the suspension plate.

A device for moving air comprising a piezoelectric element attached to a planar body. The planar body is configured to oscillate at a movable end generating an airflow in response to applying alternating electric current to said piezoelectric element. The device further comprises a partial cavity defined by a base plate, a first wall and a second wall which surrounds the movable end of the planar body. The base plate further comprises an opening located proximate to said movable end of the planar body. In operation the air flow generated by the planar body is forced out of the device through the opening.

A device for moving air comprising a piezoelectric element attached to a planar body. The planar body is configured to oscillate at a movable end generating an airflow in response to applying alternating electric current to said piezoelectric element. The device further comprises a partial cavity defined by a base plate, a first wall and a second wall which surrounds the movable end of the planar body. The base plate further comprises an opening located proximate to said movable end of the planar body. In operation the air flow generated by the planar body is forced out of the device through the opening.