Watercraft and venturi unit

What is claimed is: 1. A watercraft comprising: a hull having a bow and a stern opposite the bow, the hull defining at least a part of a motor compartment; a motor supported by the hull and disposed within the motor compartment; a jet propulsion system comprising: a duct defining a water inlet in a bottom of the hull; a venturi unit defining part of the duct and defining a venturi outlet; an impeller housing defining part of the duct and disposed between the inlet and the venturi unit; and an impeller disposed within the impeller housing, the impeller being operatively connected to the motor, the impeller being rotatable about an impeller rotation axis in (i) a forward direction whereby the impeller propels water from the water inlet rearward and out of the venturi outlet, and (ii) a reverse direction whereby the impeller propels water from the venturi outlet forward and out of the water inlet; and a bailer-siphon system comprising a fluid conduit, the fluid conduit being defined in part by a valve, the fluid conduit having: a fluid inlet disposed inside the motor compartment for drawing water out of the motor compartment; and a fluid outlet in fluid communication with the venturi outlet at least when the impeller rotates in the forward direction while the watercraft is in use, the valve being operable between an open position in which the valve fluidly connects the fluid inlet to the fluid outlet, and a closed position in which the valve fluidly disconnects the fluid inlet from the fluid outlet, the valve being in the open position when the impeller rotates in the forward direction while the watercraft is in use thereby allowing flow of water through the venturi outlet to move water out of the motor compartment, the water entering the fluid inlet of the fluid conduit and exiting the fluid outlet of the fluid conduit, and the valve being in the closed position when the impeller rotates in the reverse direction while the watercraft is in use. 2. The watercraft of claim 1 , wherein: the valve is moved to the open position when the impeller rotates in the forward direction while the watercraft is in use; and the valve is moved to the closed position when the impeller rotates in the reverse direction while the watercraft is in use. 3. The watercraft of claim 1 , wherein the valve is disposed at the venturi unit. 4. The watercraft of claim 2 , wherein the valve is operated between the open position and the closed position by a direction of flow of water through the duct. 5. The watercraft of claim 2 , wherein the valve includes an element pivotable about a pivot axis by flow of water generated by the impeller to operate the valve between the open position and the closed position. 6. The watercraft of claim 4 , wherein: the venturi unit includes a peripheral wall; the fluid outlet is disposed radially outward of the peripheral wall; the valve fluidly connects the fluid outlet to the venturi outlet via a passage through the peripheral wall when the impeller rotates in the forward direction; and the valve fluidly disconnects the fluid outlet from the venturi outlet when the impeller rotates in the reverse direction. 7. The watercraft of claim 6 , wherein: the valve includes a ball; the ball is pushed away from an inner side of the peripheral wall by flow of water through the duct generated by the impeller rotating in the forward direction to fluidly connect the fluid outlet to the venturi outlet via the inner side of the peripheral wall; and the ball is pulled toward the inner side of the peripheral wall by flow of water through the duct generated by the impeller rotating in the reverse direction to fluidly disconnect the fluid outlet from the venturi outlet at the inner side of the peripheral wall. 8. The watercraft of claim 1 , wherein: the jet propulsion system further comprises at least one of: a steering nozzle pivotable about a steering axis and about a variable trim system (VTS) axis relative to the venturi; and a reverse gate movable between a stowed position and a fully lowered position; the valve is operatively connected to one of the at least one of the steering nozzle and the reverse gate such that: when the at least one of the steering nozzle and the reverse gate is the steering nozzle, the valve is moved between the open and closed positions by rotation of the steering nozzle about the VTS axis; and when the at least one of the steering nozzle and the reverse gate is the reverse gate, the valve is moved by movement of the reverse gate such that the valve is moved to the closed position when the reverse gate is moved to a predetermined position, the predetermined position being the fully lowered position or a position intermediate the stowed position and the fully lowered position. 9. The watercraft of claim 8 , wherein at least one of the steering nozzle and the reverse gate includes the steering nozzle and the valve is operatively connected to the steering nozzle. 10. The watercraft of claim 9 , wherein: the steering nozzle is pivotable about the VTS axis between a plurality of trim-up positions and a plurality of trim-down positions; the valve is moved to the closed position when the steering nozzle is pivoted to a predetermined trim-down position of the plurality of trim-down positions; and the valve is at least partially open at positions other than the predetermined trim-down position. 11. The watercraft of claim 10 , further comprising a VTS support pivotable about the VTS axis; wherein: the steering nozzle pivots with the VTS support about the VTS axis; the steering nozzle pivots about the steering axis relative to the VTS support; and the valve is operatively connected to the VTS support. 12. The watercraft of claim 11 , further comprising a link operatively connecting the valve to the VTS support, the link being pivotally connected to the valve, and the link being pivotally connected to the VTS support. 13. The watercraft of claim 8 , wherein the valve is a ball valve. 14. A venturi unit for a jet propulsion system of a watercraft, the venturi unit comprising: a venturi conduit having a peripheral wall that defines a venturi inlet and a venturi outlet, the venturi inlet having a greater cross-sectional area than the venturi outlet; and a valve operable between an open position and a closed position and defining a part of a fluid conduit, the fluid conduit having: a fluid inlet fluidly adapted for connection to a bailer-siphon system; and a fluid outlet in fluid communication with the venturi outlet, the valve being in the open position during flow of water through the venturi conduit from the venturi inlet to the venturi outlet, the valve being in the closed position during flow of water through the venturi conduit from the venturi outlet to the venturi inlet, in the open position, the valve fluidly connecting the fluid inlet to the fluid outlet, and in the closed position, the valve fluidly disconnecting the fluid inlet from the fluid outlet. 15. The venturi unit of claim 14 , wherein the valve is operated: to the open position by flow of water through the venturi conduit from the venturi inlet to the venturi outlet, and to the closed position by flow of water through the venturi conduit from the venturi outlet to the venturi inlet. 16. The venturi unit of claim 15 , wherein the valve includes an element pivotable about a pivot axis by flow of water through the venturi conduit to operate the valve between the open position and the closed position, the element including a ball portion pivotable about the pi