Dual venturi for water heater

The invention claimed is: 1. A dual venturi comprising, a tubular part, as a circular duct through which air and gas pass through, having a primary gas inlet; a damper part comprising: a body part located in the tubular part for opening/closing a secondary air flow by rotating in horizontal plane and vertical plane directions, the horizontal plane direction being a cross-sectional direction of the tubular part and the vertical plane direction being perpendicular to the horizontal plane, a cutout part which is a removed portion of the body part, becoming a primary gas passageway in an axial direction of the tubular part via a passageway formed together with an inner surface of the tubular part when the body part is placed in the horizontal plane direction, and a damper part-side secondary gas outlet; a driving part, connected to a left lateral surface of the damper part via a rotational shaft, for rotationally driving the damper part in the horizontal and vertical planes; and a secondary gas inlet for introducing a secondary gas into the tubular part via the damper part through a gas inlet-side secondary gas outlet, which connects selectively to the damper part-side secondary gas outlet on the basis of a rotational position of the damper part, wherein the secondary gas inlet is cylindrically shaped, and is inserted into a right lateral surface of the damper part, wherein a central axis of the rotational shaft is coaxial with a central axis of the secondary gas inlet such that the body part is rotated about the secondary gas inlet by the driving part, and wherein the primary gas inlet faces the cutout part when the body part is placed in the horizontal direction. 2. The dual venturi as claimed in claim 1 , wherein the driving part comprises a synchronous motor, and wherein the rotational shaft of the driving part is a rotational shaft of the synchronous motor. 3. The dual venturi as claimed in claim 1 , wherein the gas inlet-side secondary gas outlet is connected to the damper part-side secondary gas outlet when the body part is vertically positioned. 4. The dual venturi as claimed in claim 1 , wherein the driving part comprises a limit switch indicating the vertical position and horizontal position of the damper part. 5. The dual venturi as claimed in claim 1 , wherein the tubular part includes an upper portion, a central portion, and a bottom portion, and wherein the central portion has a relatively small diameter such that air passing through the central portion is accelerated and creates a relative vacuum through a venturi effect. 6. The dual venturi as claimed in claim 1 , wherein the damper part-side secondary gas outlet is formed on an outer surface of the body part, such that the damper part-side secondary gas outlet faces upwardly when the damper part is rotated into the horizontal plane. 7. The dual venturi as claimed in claim 1 , wherein the damper part-side secondary gas outlet is formed on an outer surface of the body part, such that the damper part-side secondary gas outlet faces both upwardly and downwardly when the damper part is rotated into the horizontal plane. 8. The dual venturi as claimed in claim 6 , wherein only one gas inlet-side secondary gas outlet is formed on the gas inlet part, and wherein the damper part-side secondary gas outlet connects to the only one gas inlet side secondary gas outlet when the damper part is rotated into the vertical plane. 9. The dual venturi as claimed in claim 6 , wherein two inlet-side secondary gas outlets are formed on the gas inlet part, and wherein the damper part-side secondary gas outlet connects to both of the two inlet-side secondary gas outlets when the damper part is rotated into the vertical plane.