Valve device with a flow guiding device

The invention claimed is: 1. A valve device for a fluid comprising: at least one inflow area (P), first and second outflow areas (A, T) which are connected with one another with regard to flow via first and second poppet valves ( 23 , 24 ) that are coupled to one another and aligned with each other along an axis of the valve device, the first poppet valve ( 23 ), which is positioned between the first and the second outflow areas (A, T), being adjustable, the second poppet valve ( 24 ) being designed as a cone poppet valve with a cone shaped closure body ( 241 ), a flow guide device ( 28 ) being positioned, between the first and the second outflow areas (A, T) and upstream of the second poppet valve ( 24 ), the flow guide device having a first area which provides fluid flowing in a direction of the second poppet valve ( 24 ) with a swirl, and the flow guide device has a second area with an inner wall that forms an inner space which narrows downstream and is rotationally symmetric, and the inner wall is curved radially outward with respect to the axis of the valve device, and the closure body ( 241 ), of the second poppet valve ( 24 ), has a cone angle (GAMMA) of 60°+/−10° to reduce pressure fluctuations in the hydraulic pressure control valve as the fluid flows therethrough. 2. The valve device according to claim 1 , wherein the first area of the flow guide device ( 28 ) has several flow guide ducts ( 281 ) which are separated from one another and which are designed to provide the fluid, which flows in the direction of the second poppet valve ( 24 ) with a swirl, and the inner space of the second aria of the flow guide device ( 28 ) is designed such that the fluid which has been provided with a swirl through the first area ( 28 A) is guided to the second poppet valve ( 24 ) and a ratio (D max /D min ) between a diameter (D max ) of the inner space (I), at exit openings of the flow guide ducts ( 281 ), and a minimal diameter (D min ) of the inner space (I), at the second poppet valve ( 24 ), is 1.5+/−0.1. 3. The valve device according to claim 1 , wherein the first area of the flow guide device ( 28 ) has several duct areas ( 281 ) which are separated from one another and which are designed such that they provide the fluid which flows in the direction of the second poppet valve ( 24 ), with a swirl, and the inner space of the second area of the flow guide device ( 28 ) is designed such that the fluid, which is provided with a swirl by the first area ( 28 A), is guided to the second poppet valve ( 24 ), and a narrowing angle (DELTA) of the narrowing inner space (I) is 45+/−10° at an end positioned downstream. 4. The valve device according to claim 1 , wherein the first area of the flow guide device ( 28 ) has several duct areas ( 281 ) that are separated from one another and which are designed such that the several duct areas ( 281 ) provide a swirl to the fluid which flows in the direction of the second poppet valve ( 24 ), and the inner space of the second area of the flow guide device ( 28 ) is designed such that the fluid, which is provided with a swirl through the first area ( 28 A), is guided to the second poppet valve ( 24 ), and a ratio (L I /D min ) between an axial length (L I ) of the narrowing inner space (I) and a minimal diameter (D min ) of the inner space (I) is 0.6 to 0.8 at the second poppet valve ( 24 ). 5. The valve device according to claim 1 , wherein the first area of the flow guide device ( 28 ) has several duct areas ( 281 ) that are separated from one another and which are designed such that the several duct areas ( 281 ) provide the fluid, which flows in the direction of the second poppet valve ( 24 ), with a swirl, and the first and the second areas ( 28 A, 28 B) of the flow guide device are each a component and at least one of these components ( 28 A, 28 B) has a cone shaped area (A 1 , A 2 ) which is designed such that the component of the first area ( 28 A) of the flow guide device is aligned in at least one predefined radial axis of the flow guide device ( 28 ) with the component of the second area ( 28 B) of the flow guide device. 6. The valve device according to claim 1 , wherein a second flow guide device ( 26 ) is positioned, in the inflow area (P) upstream of the first poppet valve ( 23 ), and is designed so that the second flow guide device ( 26 ) provides the inflow of fluid in the area of the first poppet valve ( 23 ) with a swirl. 7. The valve device according to claim 1 , wherein the first and a second flow guide devices ( 26 , 28 ) are designed such that the swirl of the fluid flow through the first poppet valve ( 23 ), and the swirl of the fluid flow through the second poppet valve ( 24 ) have a common rotational direction. 8. The valve device according to claim 1 , further comprising a proportional electro-magnet ( 12 , 13 , 14 ) for actuating a closure body of the first poppet valve ( 23 ) and the second poppet valve ( 24 ). 9. A hydraulic pressure control valve in combination with a motor vehicle transmission, the hydraulic pressure control valve comprising at least one inflow area (P) and first and second outflow areas (A, T) which are connected with one another with regard to flow via first and second poppet valves ( 23 , 24 ) that are coupled to each other and aligned along an axis of the hydraulic pressure control valve, the first poppet valve ( 23 ), which is positioned between the first and the second outflow areas (A, T), being adjustable, the second poppet valve ( 24 ) being designed as a cone poppet valve with a cone shaped closure body ( 241 ), a flow guide device ( 28 ) is positioned upstream of the second poppet valve ( 24 ), between the first and the second outflow areas (A, T), and has an upstream portion and a downstream portion, the upstream portion is designed to provide a swirl of fluid which flows in a direction of the second poppet valve ( 24 ), and the downstream portion has an inner wall that defines an inner space which narrows downstream and is rotationally symmetric, and the inner wall is curved radially outward with respect to the axis of the hydraulic pressure control valve, and a closure body ( 241 ) of the second poppet valve ( 24 ) has a cone angle (GAMMA) of 60°+/−10°. 10. A valve device for a fluid comprising: at least one inflow area (P), first and second outflow areas (A, T) which are connected with one another with regard to flow via first and second poppet valves ( 23 , 24 ) that are coupled to one another, the first poppet valve ( 23 ), which is positioned between the first and the second outflow areas (A, T), being adjustable, the second poppet valve ( 24 ) being designed as a cone poppet valve with a cone shaped closure body ( 241 ), a flow guide device ( 28 ) being positioned, between the first and the second outflow areas (A, T) and upstream of the second poppet valve ( 24 ), and being designed to provide a swirl of fluid which flows in a direction of the second poppet valve ( 24 ), the closure body ( 241 ), of the second poppet valve ( 24 ), has a cone angle (GAMMA) of 60°+/−10°, and a second flow guide device ( 26 ) is positioned, in the inflow area (P) upstream of the first poppet valve ( 23 ), and designed so that the second flow guide device ( 26 ) provides the inflow in fluid in the area of the first poppet valve ( 23 ) with a swirl.