Method and system for vacuum generation in an intake

The invention claimed is: 1. A system comprising: a venturi device displaceable along an axis of an intake passage; an inwardly projecting fixture radially spaced away from the axis and in sealing contact with an intake pipe of the intake passage; and a first venturi passage located between the venturi device and the intake pipe and a second venturi passage located between the axis and the fixture, wherein the venturi device is annular and radially spaced away from the intake pipe, and where the fixture is radially spaced away from the axis, and where a smallest radial distance between the intake pipe and the venturi device is smaller than a smallest radial distance between the axis and the fixture, wherein the smallest radial distance between the axis and the fixture corresponds to an apex of the fixture, and where the apex of the fixture comprises a plurality of apertures located on the fixture. 2. The system of claim 1 , wherein the fixture comprises a first surface upstream of a second surface relative to a direction of intake air flow, and where the first and second surfaces are angled relative to the direction of intake air flow. 3. The system of claim 1 , wherein the venturi device comprises an upstream first surface and a downstream second surface, and where the upstream first surface and downstream second surface are angled relative to a direction of intake air flow. 4. The system of claim 1 , wherein the venturi device and the fixture are both fluidly coupled to a vacuum consumption device. 5. The system of claim 1 , wherein the fixture is annular and further comprises a sealing surface in sealing contact with an interior surface of the intake pipe. 6. The system of claim 1 , wherein the smallest radial distance between the intake pipe and the venturi device corresponds to an apex of the venturi device, and where the apex of the venturi is upstream of a plurality of perforations located on the venturi device. 7. The system of claim 6 , wherein the first venturi passage is fluidly coupled to an interior chamber of the venturi device via the plurality of perforations. 8. The system of claim 1 , wherein the second venturi passage is fluidly coupled to an annular chamber of the fixture via the plurality of apertures. 9. A system comprising: an intake passage of an intake pipe; a tear-drop shaped hollow and sliding object radially spaced away from the intake pipe; an inwardly protruding projection from the intake pipe surrounding the object; a passage through the projection forming a first venturi passage; and one or more openings in the object exposing an interior of the object to the intake pipe, the openings downstream of an apex of an outer surface curvature of the object, wherein the apex of the outer surface of the object touches a surface of the projection in a fully closed position, and where the one or more openings in the object are fluidly coupled to the first venturi passage in the fully closed position, wherein the object and projection are fluidly coupled to a vacuum consumption device, and where the fully closed position provides more vacuum to the vacuum consumption device than other positions of the object, and where ambient air does not flow to an intake manifold when the object is in the fully closed position. 10. The system of claim 9 , wherein the projection and the object are mechanically actuated. 11. The system of claim 9 , wherein the object comprises a second venturi passage located between it and the intake pipe, and where the second venturi passage merges with the first venturi passage as the object moves closer to the projection. 12. The system of claim 9 , where the object slides along the intake passage based on a pressure of the intake manifold. 13. A system comprising: an engine intake passage; a tear-drop shaped hollow and sliding object radially spaced away from the intake pipe; an annular fixture having a passage therethrough fluidically coupled with apertures at a narrowed apex of the fixture; and openings in the object exposing an interior of the object to the intake pipe, downstream of the apex, fluidically coupled with the passage exterior to the intake passage, and combining vacuum generation. 14. The system of claim 13 , wherein the object is mechanically actuated. 15. The system of claim 13 , where the object slides along the intake passage based on a pressure of an intake manifold, and each of the passages through the annular fixture and the object are fluidically coupled to a vacuum consumption device.