Device for regulating a flow through and distributing a fluid in a fluid circuit

It is claimed: 1. A device for controlling a refrigerant in a refrigerant circuit including at least one compressor, at least one condenser, and at least one evaporator wherein the device is disposed between the at least one condenser and the at least one evaporator and used as an expansion device, comprising a housing with ports for the connection to fluid lines, each of which being connected via a passage opening with at least one interior volume of the housing, and at least one valve element disposed in the interior volume of the housing, and a drive element for moving the at least one valve element relative to the housing, wherein the at least one valve element is supported rotatably about an axis of rotation and comprises at least openings formed as through-bores, which openings form in the interior of the at least one valve element a common volume, wherein an axis of symmetry of a first opening and the rotational axis of the at least one valve element is located on a common axis, wherein a second opening and a third opening of the valve element are disposed in a common center plane of the at least one valve element at an angle with respect to one another differing from 0° and from 180°, wherein the center plane is oriented orthogonally to the rotational axis of the at least one valve element, and wherein on the surface of the at least one valve element, starting at an edge of the third opening, at least one groove is formed which extends along the center plane of the at least one valve element; wherein the through-bores have identical diameters that are constant over their length. 2. A device according to claim 1 , wherein the at least one valve element is formed as a ball or a circular cylinder. 3. A device according to claim 1 , wherein the first opening of the at least one valve element is on a side that is opposite to the side oriented toward the drive element. 4. A device according to claim 1 , wherein the at least one valve element is oriented within the housing such that the through-bore of the first opening of the at least one valve element and the passage opening of a first port form a common passageway, wherein the axis of symmetry of the first opening of the at least one valve element and an axis of symmetry of the passage opening of the first port are located on a common axis. 5. A device according to claim 4 , comprising two of the at least one valve elements oppositely disposed to each other, wherein the first passage openings of the two oppositely disposed valve elements are connected with one another at a single connection site. 6. A device according to claim 1 , wherein axes of symmetry of the openings and the rotational axis of the at least one valve element have a common point of intersection in the center of the at least one valve element. 7. A device according to claim 1 , comprising two of said at least one grooves, wherein on the surface of the at least one valve element, starting at the edge of the third opening, two grooves are formed as a first groove and a second groove which extend on both sides of the third opening along the center plane of the at least one valve element. 8. A device according to claim 1 , wherein axes of symmetry of the passage openings of a first port, of a second port as well as of a third port of the housing and the rotational axis of the at least one valve element have a common point of intersection in which the at least one valve element is disposed with a center point. 9. A device according to claim 1 , wherein the at least one valve element is connected across a connection element with the drive element, the drive element being disposed outside of the housing. 10. A device according to claim 9 comprising at least two of the at least one valve elements and at least two drive elements, wherein each of the at least two valve elements is connected with a respective drive element across a connection element such that the at least two valve elements are movable independently of one another. 11. A device according to claim 9 , wherein the passage openings of a second port and of a third port are located on a first common axis and the passage opening of a first port and the connection element are located on a second common axis such that the first common axis and the second common axis form a T shape. 12. A device according to claim 11 , wherein the first port is disposed on a side of the at least one valve element opposite to the drive element and that the second port and the third port are implemented on sides opposite to one another and differing from the side of the first port of housing. 13. A device according to claim 9 , wherein the connection element is formed as a shaft. 14. A device according to claim 13 , wherein the connection element is fixedly connected at a first end with the drive element and at a second end, formed distally to the first end, projects through a side of said housing into the housing and is connected with the at least one valve element. 15. A device according to claim 9 , wherein an even number of the at least one valve element is provided. 16. A device according to claim 1 , wherein the drive element is formed as a servomotor. 17. A device for controlling a refrigerant in a refrigerant circuit including at least one compressor, at least one condenser, and at least one evaporator, wherein the device is disposed between the at least one condenser and the at least one evaporator and used as an expansion device, comprising a housing with ports for the connection to fluid lines, each of which being connected via a passage opening with at least one interior volume of the housing, and at least one valve element disposed in the interior volume of the housing, and a drive element for moving the at least one valve element relative to the housing; wherein the at least one valve element is supported rotatably about an axis of rotation and comprises at least openings formed as through-bores, which openings form in the interior of the at least one valve element a common volume, wherein an axis of symmetry of a first opening and the rotational axis of the at least one valve element is located on a common axis; wherein a second opening and a third opening of the valve element are disposed in a common center plane of the at least one valve element at an angle with respect to one another differing from 0° and from 180°, wherein the center plane is oriented orthogonally to the rotational axis of the at least one valve element; wherein on the surface of the at least one valve element, starting at an edge of the third opening, at least one groove is formed which extends along the center plane of the at least one valve element; wherein on the surface of the at least one valve element, starting at the edge of the third opening, two grooves are formed as a first groove and a second groove which extend on both sides of the third opening along the center plane of the at least one valve element; and wherein the second groove is diametrically opposite to the second opening of the at least one valve element.