A synthetic jet cooling device (1) for cooling an object (5), comprising: a transducer (10) adapted to generate velocity waves, and an enclosure (4) arranged to receive the velocity waves via an actuated aperture (8). The enclosure (4) is sufficiently large to generate, at the actuated aperture (8),
A synthetic jet cooling device (1) for cooling an object (5), comprising: a transducer (10) adapted to generate velocity waves, and an enclosure (4) arranged to receive the velocity waves via an actuated aperture (8). The enclosure (4) is sufficiently large to generate, at the actuated aperture (8), an internal synthetic jet inside the enclosure (4). Furthermore, the enclosure (4) is arranged to contain the object (5), thereby enabling cooling of the object (5) by the internal synthetic jet. The arrangement typically permits multifunctional use of an existing enclosure, containing the object to be cooled, both for its original purpose (e.g. a reflector in a lamp, or a LED backlight module) and as an enclosure generating internal synthetic jets, why the cooling device typically requires virtually no extra space and weight, and can be provided at a low cost.
대표청구항▼
1. A synthetic jet cooling device for cooling an object, the device comprising: a transducer for generating velocity waves,an enclosure for containing said object therein and arranged to receive said velocity waves via an actuated aperture, said enclosure being dimensioned to generate, at said actua
1. A synthetic jet cooling device for cooling an object, the device comprising: a transducer for generating velocity waves,an enclosure for containing said object therein and arranged to receive said velocity waves via an actuated aperture, said enclosure being dimensioned to generate, at said actuated aperture, an internal synthetic jet inside the enclosure, thereby enabling cooling of said object by said internal synthetic jet,a housing enclosing a front of said transducer, whereby a second cavity is formed,wherein said enclosure and said actuated aperture are dimensioned to act as a resonating mass-spring system actuated by said transducer, such that fluid in said enclosure acts as a spring, and fluid in said actuated aperture acts as a mass and wherein a diameter of said actuated aperture is between 1/10 and ½ of the distance between an end of the actuated aperture and a first hot spot on the object, andwherein said actuated aperture is a bore of a tube attached to a loudspeaker coil of a loudspeaker comprising said transducer, and wherein said second cavity is connected to said second actuated aperture via a pipe having a length of λ/2, where λ is the wave length of the velocity waves generated by the loudspeaker. 2. A synthetic jet cooling device according to claim 1, wherein the stroke of the transducer is larger than the radius of the actuated aperture. 3. A synthetic jet cooling device according to claim 1, wherein the spatial volume change introduced by the transducer is ≧1% of the enclosure volume. 4. A synthetic jet cooling device according to claim 1, further comprising at least one cavity in communication with said enclosure via at least one actuated aperture, fluid in said at least one cavity being actuated by said transducer, wherein said at least one cavity is dimensioned to prevent the fluid therein from acting as a spring in a mass-spring system, and wherein a surface actuated by said transducer is larger than a surface of said at least one aperture. 5. A synthetic jet cooling device according to claim 1, wherein said actuated aperture is arranged in a member actuated by said transducer, said member being a wall, a membrane or a tube. 6. A synthetic jet cooling device according to claim 1, wherein said loudspeaker has a closed back, whereby a first cavity is formed by interior surfaces of said loudspeaker, a flange of said tube, and/or a loudspeaker membrane. 7. A synthetic jet cooling device according to claim 1, wherein said enclosure comprises at least one non-actuated aperture adapted to generate an additional internal synthetic jet inside said enclosure.
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이 특허에 인용된 특허 (12)
Haumann Jurgen (Rekingen CHX) Knopfli Alfred (Othmarsingen CHX) Sattelmayer Thomas (Mandach CHX) Tresch Rudolf (Seon CHX), Apparatus for impingement cooling.
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