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A rotary shutter actuator comprising a retainer, a rotatable member, a plurality of shutters, and a dial. The rotatable member is supported by the retainer, and the plurality of shutters are swivelably coupled to the retainer. The dial has an opening and is operably connected to each of the shutters

A rotary shutter actuator comprising a retainer, a rotatable member, a plurality of shutters, and a dial. The rotatable member is supported by the retainer, and the plurality of shutters are swivelably coupled to the retainer. The dial has an opening and is operably connected to each of the shutters and the rotatable member. Thus, as the dial is rotated, the shutters move to and from a fully open and closed position. The dial also causes the rotatable member to rotate with respect to the retainer.

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What is claimed is: 1. A rotary shutter actuator comprising: an annular retainer having a plurality of retainer fasteners disposed thereon, said retainer fasteners circumferentially placed around said retainer; a rotatable member supported by said retainer; a plurality of shutters swivelably couple

What is claimed is: 1. A rotary shutter actuator comprising: an annular retainer having a plurality of retainer fasteners disposed thereon, said retainer fasteners circumferentially placed around said retainer; a rotatable member supported by said retainer; a plurality of shutters swivelably coupled to said retainer, wherein each of said plurality of shutters has a first end and a second end, and said plurality of shutters are arranged in a non-overlapping configuration; a connection mechanism intermediate to said first end and said second end of each of said plurality of said shutters, wherein said rotatable member is operably connected to each of said plurality of shutters by said connection mechanism for creating a moment arm for actuating said plurality of shutters; and an exposed dial adapted to be rotated by a user, said dial defining an opening and being operably connected to each of said plurality of shutters and said rotatable member, whereby rotation of said dial results in said plurality of shutters moving to and from a fully open and closed position and causing said rotatable member to rotate; wherein said plurality of shutters are sandwiched between a rear side of said dial and a front side of said rotatable member. 2. The rotary shutter actuator of claim 1 further comprising a slot formed on each of said plurality of shutters, wherein each of said plurality of retainer fasteners are at least partially disposed in a respective said slot to swivelably connect said shutters and said retainer portion. 3. The rotary shutter actuator of claim 2, wherein when said dial is rotated, said rotating motion transfers to said shutters and said rotatable member, and said retainer fasteners extending into said respective slots on said shutters, so that the movement of said shutters is directed by the shapes of said respective slots. 4. The rotary shutter actuator of claim 1, wherein said connection mechanism is a hole on each of said plurality of shutters, and said dial has an integral fastener extending through each of said plurality of shutters and at least partially into said rotatable member. 5. The rotary shutter actuator of claim 1, wherein said plurality of shutters are arranged on a common plane circumferentially around said retainer. 6. The rotary shutter actuator of claim 1 further comprising an outer ring with a first diameter and a recessed inner ring with a second diameter on said retainer, wherein rotatable member rests on said inner ring and the contacts an inner wall connecting said outer ring to said inner ring. 7. The rotary shutter actuator of claim 1, wherein at least one of said retainer and said rotatable member has a groove radially displaced, and the other of said retainer and said rotatable member has an extension that is placed in said groove to rotatably connect said rotatable member and said retainer. 8. The rotary shutter actuator of claim 1 further comprising an outer ring and a recessed inner ring on said retainer, and a friction element between said retainer and said rotatable member, wherein said friction element creates a friction between said retainer and said rotatable member so that said friction must be overcome to rotate said rotatable member along said inner ring. 9. The rotary shutter actuator of claim 1 further comprising a plurality of stoppers extending from said retainer, wherein said shutters contact said plurality of stoppers when said shutters are in said fully open position so that said plurality of stoppers prevent said shutters from moving beyond a desired point. 10. The rotary shutter actuator of claim 1, wherein when said shutters are in said closed position said shutters are prevented from moving by a leading edge of said shutter contacting a trailing edge of an adjacent said shutter. 11. The rotary shutter actuator of claim 1 further comprising a tip on said shutter, wherein when said shutters are in said closed position said shutters are prevented from moving by said tip of said shutter contacting said tip of an adjacent said shutter. 12. The rotary shutter actuator of claim 1, wherein said rotary shutter actuator is positioned over an air vent of a vehicular heating, ventilation, and air conditioning system, such that the position of said shutters controls the airflow through said air vent. 13. The rotary shutter actuator of claim 1 further comprising a housing attached to said retainer having at least one side wall and a base defining a cavity. 14. A rotary shutter actuator comprising: a retainer having an outer ring and an inner ring, wherein said outer ring has a first diameter and said inner ring has a second diameter and is recessed with respect to said outer ring so that an inner wall on said retainer portion connects said outer ring and said inner ring; a rotatable member supported by said retainer, wherein said rotatable member rotates within said inner ring; a plurality of shutters swivelably coupled to said retainer on a common plane, wherein each of said plurality of shutters has a first end and a second end, and said plurality of shutters are arranged in a non-overlapping configuration; a plurality of retainer fasteners extending from at least one of said retainer and said plurality of shutters, wherein a respective slot corresponding to each of said plurality of retainer fasteners is formed on the other of said retainer and each of said plurality of shutters, and each of said plurality of retainer fasteners is at least partially disposed in each said respective slot to swivelably connect said shutters and said retainer portion; a connection mechanism intermediate to said first end and said second end of each of said plurality of said shutters, wherein said rotatable member is operably connected to each of said plurality of shutters by said connection mechanism for creating a moment arm for actuating said plurality of shutters; and an exposed dial adapted to be rotated by a user, said dial defining an opening and being operably connected to each of said plurality of shutters and said rotatable member, whereby rotation of said dial results in said plurality of shutters moving to and from a fully open and closed position and causing said rotatable member to rotate; wherein said plurality of shutters are sandwiched between a rear side of said dial and a front side of said rotatable member. 15. The rotary shutter actuator of claim 14, wherein when said retainer fasteners are disposed on said retainer, said retainer fasteners are circumferentially placed around said retainer. 16. The rotary shutter actuator of claim 14, wherein when said dial is rotated, said rotating motion transfers to said shutters and said rotatable member, and said retainer fasteners extending into said respective slots on said shutters, so that the movement of said shutters is directed by the shapes of said respective slots. 17. The rotary shutter actuator of claim 14, wherein said connection mechanism is a hole on each of said plurality of shutters, and said dial has an integral fastener extending through each of said plurality of shutters and at least partially into said rotatable member. 18. The rotary shutter actuator of claim 14 further comprising a friction element between said retainer and said rotatable member, wherein said friction element creates a friction between said retainer and said rotatable member so that said friction must be overcome to rotate said rotatable member along said inner ring. 19. The rotary shutter actuator of claim 14 further comprising a plurality of stoppers extending from said retainer, wherein said shutters contact said plurality of stoppers when said shutters are in said fully open position so that said plurality of stoppers prevent said shutters from moving beyond a desired point. 20. The rotary shutter actuator of claim 14, wherein when said shutters are in said closed position said shutters are prevented from moving by a leading edge of said shutter contacting a trailing edge of an adjacent said shutter. 21. The rotary shutter actuator of claim 14 further comprising a tip on said shutter, wherein when said shutters are in said closed position said shutters are prevented from moving by said tip of said shutter contacting said tip of an adjacent said shutter. 22. The rotary shutter actuator of claim 14, wherein said rotary shutter actuator is positioned over an air vent of a vehicular heating, ventilation, and air conditioning system, such that the position of said shutters controls the airflow through said air vent. 23. The rotary shutter actuator of claim 14 further comprising a housing attached to said retainer having at least one side wall and a base defining a cavity. 24. A rotary shutter container assembly comprising: a retainer having an outer ring and an inner ring, wherein said outer ring has a first diameter and said inner ring has a second diameter and is recessed with respect to said outer ring so that an inner wall on said retainer portion connects said outer ring and said inner ring; a rotatable member supported by said retainer, wherein said rotatable member rotates within said inner ring; a plurality of shutters swivelably coupled to said retainer on a common plane, wherein each of said plurality of shutters has a first end and a second end, and said plurality of shutters are arranged in a non-overlapping configuration; a plurality of retainer fasteners extending from at least one of said retainer and said plurality of shutters, wherein a respective slot corresponding to each of said plurality of retainer fasteners is formed on the other of said retainer and each of said plurality of shutters, and each of said plurality of retainer fasteners is at least partially disposed in each said respective slot to swivelably connect said shutters and said retainer portion; a connection mechanism intermediate to said first end and said second end of each of said plurality of said shutters, wherein said rotatable member is operably connected to each of said plurality of shutters by said connection mechanism for creating a moment arm for actuating said plurality of shutters; an exposed dial adapted to be rotated by a user, said dial defining an opening and being operably connected to each of said plurality of shutters and said rotatable member, whereby rotation of said dial results in said plurality of shutters moving to and from a fully open and closed position and causing said rotatable member to rotate; and a housing attached to said retainer having at least one side wall and a base defining a cavity; wherein said plurality of shutters are sandwiched between a rear side of said dial and a front side of said rotatable member. 25. The rotary shutter container assembly of claim 24, wherein when said retainer fasteners are disposed on said retainer, said retainer fasteners are circumferentially placed around said retainer. 26. The rotary shutter container assembly of claim 24, wherein when said dial is rotated, said rotating motion transfers to said shutters and said rotatable member, and said retainer fasteners extending into said respective slots on said shutters, so that the movement of said shutters is directed by the shapes of said respective slots. 27. The rotary shutter container assembly of claim 24, wherein said connection mechanism is a hole on each of said plurality of shutters, and said dial has an integral fastener extending through each of said plurality of shutters and at least partially into said rotatable member. 28. The rotary shutter container assembly of claim 24 further comprising a friction element between said retainer and said rotatable member, wherein said friction element creates a friction between said retainer and said rotatable member so that said friction must be overcome to rotate said rotatable member along said inner ring. 29. The rotary shutter container assembly of claim 24 further comprising a plurality of stoppers extending from said retainer, wherein said shutters contact said plurality of stoppers when said shutters are in said fully open position so that said plurality of stoppers prevent said shutters from moving beyond a desired point. 30. The rotary shutter container assembly of claim 24, wherein when said shutters are in said closed position said shutters are prevented from moving by a leading edge of said shutter contacting a trailing edge of an adjacent said shutter. 31. The rotary shutter container assembly of claim 24 further comprising a tip on said shutter, wherein when said shutters are in said closed position said shutters are prevented from moving by said tip of said shutter contacting said tip of an adjacent said shutter.