Device for pressure-dependent opening of a suction intake

The invention claimed is: 1. A device for pressure-dependent opening of a suction intake, comprising: a suction jet pump, comprising a feed line, an outlet line and the suction intake; a valve body, displaceably arranged inside the feed line in a delivery direction of the suction jet pump and having an effective area exposed to a feed pressure inside the feed line; a spring element, arranged between the feed line and the valve body, configured to apply a force in opposition to the feed pressure inside the feed line; wherein the effective area of the valve body, and the spring element are operable such that, when the feed pressure inside the feed line is below a predefined feed pressure, the spring element is configured to apply the force on the valve body to close the suction intake such that the suction intake is fluid-tight, and, when the feed pressure inside the feed line exceeds the predefined feed pressure, the feed pressure is configured to apply a force on the valve body to open the suction intake against the force of the spring element and having a sealing element to engage said suction intake; and wherein the suction intake is configured to suction a fluid from an intake separate from said feed line wherein said fluid from said suction intake is delivered to said outlet line of said device and wherein said sealing element moves along the delivery direction to open and close said suction intake. 2. The device as claimed in claim 1 , wherein at least one first sealing element is arranged between the feed line and the valve body. 3. The device as claimed in claim 1 , wherein said sealing element is arranged on the valve body in the area of the suction intake of the suction jet pump. 4. The device as claimed in claim 1 , wherein the valve body comprises a fluid-transmitting passage, which is arranged in the delivery direction of the suction jet pump and which serves as part of the feed line of the suction jet pump. 5. The device as claimed in claim 1 , wherein the cross section in the area between the feed line and the outlet line has a constriction, formed by two opposing cones, which are united at a point of the smallest diameter. 6. The device as claimed in claim 1 , wherein the suction jet pump further comprises a nozzle, arranged at the end of the feed line in the delivery direction of the suction jet pump. 7. The device as claimed in claim 6 , wherein the valve body and the nozzle are integrally formed. 8. The device as claimed in claim 7 , wherein the effective area of the valve body, and the spring element are designed so that, under the displacement of the valve body, the nozzle is arranged in a position relative to the outlet line of the suction jet pump which obtains a maximum suction effect. 9. A fuel tank comprising: a device for pressure-dependent opening of a suction intake, the device including a suction jet pump, comprising a feed line, an outlet line and the suction intake; a valve body, displaceably arranged inside the feed line in a delivery direction of the suction jet pump and having an effective area exposed to a feed pressure inside the feed line; a spring element, arranged between the feed line and the valve body, configured to apply a force in opposition to the feed pressure inside the feed line; wherein the effective area of the valve body, and the spring element are operable such that, when the feed pressure inside the feed line is below a predefined feed pressure, the spring element is configured to apply the force on the valve body to close the suction intake such that the suction intake is fluid-tight, and, when the feed pressure inside the feed line exceeds the predefined feed pressure, the feed pressure is configured to apply a force on the valve body to open the suction intake against the force of the spring element and having a sealing element to engage said suction intake; and wherein the suction intake is configured to suction a fluid from an intake separate from said feed line wherein said fluid from said suction intake is delivered to said outlet line of said device and wherein said sealing element moves along the delivery direction to open and close said suction intake. 10. The fuel tank as claimed in claim 9 , wherein the feed line is connected to a fuel supply pump via a first fuel line, the outlet line is connected to an interior of the fuel tank via a second fuel line, and the suction intake is connected to a separating device or to a swirl pot via a third fuel line.