Intake charged pump for delivering a liquid

The invention claimed is: 1. An intake charged double chamber vane cell pump ( 1 ) for delivering a liquid to a motor vehicle, the intake charged pump ( 1 ) comprising: a housing ( 2 ) with an inner space ( 3 ) located therein, a pump rotor is arranged within the inner space of the housing and rotates about a rotational axis, an intake duct for the liquid extending to first and second inlets ( 18 , 19 ) of the pump, a pressure area ( 11 , 12 ) of the pump being linked to a pressured duct ( 9 ) through which a jet stream ( 10 ), from the pressure area ( 11 , 12 ), is transported to the first and the second inlets ( 18 , 19 ) of the pump, a nozzle configuration ( 13 , 14 ), in the intake duct, for accelerating the liquid which is returned with the jet stream ( 10 ) and for supporting suction of a suction stream ( 8 ) of the liquid from a storage container, the intake duct being positioned in a front of the housing ( 2 ) of the pump ( 1 ) and designed as a cylindrical mixing chamber ( 6 ) so that the suction stream ( 8 ) is injected into the cylindrical mixing chamber ( 6 ), the cylindrical mixing chamber defines a chamber longitudinal axis which is directed tangentially to the inner space of the housing and offset from the rotational axis of the pump rotor, a nozzle ( 13 ) of the nozzle configuration ( 13 , 14 ) having an output end that is spaced, along the chamber longitudinal axis, upstream of and apart from the cylindrical mixing chamber by an axial distance, the nozzle leading into the cylindrical mixing chamber ( 6 ) at an acute angle in a way so that the jet stream ( 10 ), exiting from the nozzle ( 13 ), creates a common mixing stream ( 15 ) with the sucked in suction stream ( 8 ) from the storage container, through which, to one of a front suction pocket ( 4 ) at the first inlet and a back suction pocket ( 5 ) at the second inlet of the double chamber pump ( 1 ), in each case, a respective partial stream ( 16 , 17 ), having a common pressure and a common same energy content, being delivered, and the front and the back suction pockets ( 4 , 5 ) are each designed as pairs at each side of the housing ( 2 ) of housing lids ( 21 ) and the nozzle ( 13 ) has a radially inner shell surface ( 27 ) that is asymmetrical with respect to the nozzle longitudinal axis. 2. The pump according to claim 1 , wherein starting at the cylindrical mixing chamber ( 6 ), the housing ( 2 ) has the first inlet ( 18 ) to the front suction pocket ( 4 ) and the second inlet ( 19 ) to the back suction pocket ( 5 ), the front and the back suction pockets ( 4 , 5 ) are positioned diametrically opposite one another in the pump, and the back suction pocket ( 5 ) is connected, via a ring duct ( 20 ), with the cylindrical mixing chamber ( 6 ). 3. The pump according to claim 1 , wherein the nozzle ( 13 ) is arranged to direct the jet stream into the cylindrical mixing chamber ( 6 ) which mixes the jet stream with the suction stream to create the common mixing stream and causes the common mixing stream to divide into a first respective partial stream ( 16 ), which flows to the front suction pocket ( 4 ), and a second respective partial stream ( 17 ), which flows through the back suction pocket ( 5 ), the second respective partial stream is brought at an inner wall of the cylindrical mixing chamber ( 6 ) to a ring duct ( 20 ) that extends, radially around the rotational axis of the pump rotor, and to the back suction pocket ( 5 ). 4. The pump according to claim 1 , wherein a longitudinal axis ( 22 ) of the nozzle ( 13 ) is tilted in at least one of a vertical and a horizontal longitudinal sectional plane (A, B) at an angle (a) of approximately 15° to 45° with respect to the chamber longitudinal axis ( 23 ) of the cylindrical mixing chamber ( 6 ). 5. The pump according to claim 4 , wherein an inlet of the nozzle ( 13 ) is positioned in the vertical longitudinal sectional plane (A), with respect to the chamber longitudinal axis ( 23 ) of the cylindrical mixing chamber ( 6 ), at an axis deviation of approximately 15% to 25% of a diameter of the cylindrical mixing chamber ( 6 ). 6. The pump according to claim 1 , wherein a longitudinal axis ( 22 ) of the nozzle ( 13 ) is tilted in at least one of a vertical and a horizontal longitudinal sectional plane (A, B) at an angle (α) of approximately 15° to 20° with respect to the chamber longitudinal axis ( 23 ) of the cylindrical mixing chamber ( 6 ). 7. The pump according to claim 1 , wherein the nozzle ( 13 ) defines a nozzle longitudinal axis and has an inlet, the nozzle is positioned with respect to the chamber longitudinal axis ( 23 ) of the cylindrical mixing chamber ( 6 ) such that the nozzle longitudinal axis at the inlet of the nozzle is spaced from the chamber longitudinal axis of the cylindrical mixing chamber by a distance that is approximately 15% to 20% of a diameter of the cylindrical mixing chamber ( 6 ). 8. An intake charged double chamber vane cell pump ( 1 ) for delivering a liquid to a motor vehicle, the intake charged pump ( 1 ) comprising: a housing ( 2 ) with an inner space ( 3 ) located therein, a pump rotor is arranged within the inner space of the housing and rotates about a rotational axis, an intake duct for the liquid extending to first and second inlets ( 18 , 19 ) of the pump, a pressure area ( 11 , 12 ) of the pump being linked to a pressured duct ( 9 ) through which a jet stream ( 10 ), from the pressure area ( 11 , 12 ), is transported to the first and the second inlets ( 18 , 19 ) of the pump, a nozzle configuration ( 13 , 14 ), in the intake duct, for accelerating the liquid which is returned with the jet stream ( 10 ) and for supporting suction of a suction stream ( 8 ) of the liquid from a storage container, the intake duct being positioned in a front of the housing ( 2 ) of the pump ( 1 ) and designed as a cylindrical mixing chamber ( 6 ) so that the suction stream ( 8 ) is injected into the cylindrical mixing chamber ( 6 ), the cylindrical mixing chamber defines a chamber longitudinal axis which is directed tangentially to the inner space of the housing and offset from the rotational axis of the pump rotor, a nozzle ( 13 ) of the nozzle configuration ( 13 , 14 ) having an output end that is spaced, along the chamber longitudinal axis, upstream of and apart front the cylindrical mixing chamber by an axial distance, the nozzle leading into the cylindrical mixing chamber ( 6 ) at an acute angle in a way so that the jet stream ( 10 ), exiting from the nozzle ( 13 ), creates a common mixing stream ( 15 ) with the sucked in suction stream ( 8 ) from the storage container, through which, to one of a front suction pocket ( 4 ) at the first inlet and a back suction pocket ( 5 ) at the second inlet of the double chamber pump ( 1 ), in each case, a respective partial stream ( 16 , 17 ), having a common pressure and a common same energy content, being delivered, and the nozzle configuration ( 13 , 14 ) comprises of a carrier plate ( 14 ), and the nozzle ( 13 ) is either embedded or designed into the carrier plate, and the carrier plate ( 14 ) is either: a component of a suction filter enclosure ( 7 ), or is fixed at an output of the pressure duct ( 9 ) within a holding groove ( 26 ) of the suction filter enclosure ( 7 ). 9. An intake charged pump ( 1 ) for delivering a liquid to a motor vehicle, the intake charged pump ( 1 ) comprising: a housing ( 2 ) with an inner space ( 3 ) located therein, an intake duct for the liquid extending to an intake area ( 18 , 19 ) of the pump, a pressure area ( 11 , 12 ) of the pump being linked to a pressured duct ( 9 ) through which a jet stream ( 10 ), from the pressure area ( 11 , 12 ), is transported to the intake area ( 18 , 19 ) of the pump,