Chamber for blood treatment system, use of the chamber, blood tubing system and blood treatment system

What is claimed is: 1. A drip chamber for a blood treatment system comprising: a chamber wall having a top; a space defined by the chamber wall; a lid closing the space at the top of the chamber wall; a first tube section arranged on the lid, extending through the lid, and extending downwardly from the lid into the space; a second tube section arranged on the lid, extending through the lid, and extending downwardly from the lid into the space, wherein a portion of the lid extends between the first and second tube sections in a direction other than a downward direction; at least two first inlets for a first fluid comprising blood, the at least two first inlets being formed in a portion of the first tube section that extends downwardly from the lid and into the space; at least two second inlets for a second fluid comprising an infusion fluid to be mixed with the blood, the at least two second inlets being formed in a portion of the second tube section that extends downwardly from the lid and into the space; wherein the at least two first inlets and the at least two second inlets are connected with the space, wherein the first tube section has a first longitudinal axis, comprises a first shell wall surrounding the first longitudinal axis, comprises a first end wall in the space, and comprises a blood supply port, the first longitudinal axis passing through the first end wall, the at least two first inlets arranged laterally in the first shell wall and circumferentially spaced apart from one another, wherein the second tube section has a second longitudinal axis, comprises a second shell wall surrounding the second longitudinal axis, comprises a second end wall in the space, and comprises an infusion fluid supply port, the second longitudinal axis passing through the second end wall, the at least two second inlets arranged laterally in the second shell wall and circumferentially spaced apart from one another, and wherein, in an operating condition, the space is at least partly filled up to a fluid level with the first fluid or with a mixture of the first fluid and the second fluid, an air cushion is disposed above the fluid level, each of the first and second tube sections extends downwardly from the lid, through the air cushion, and below the fluid level in the space, and the at least two first inlets and the at least two second inlets are located below the fluid level in the space. 2. The drip chamber according to claim 1 , wherein the space defined by the chamber wall has a vertical axis, and, in the operating condition, at least one of the first tube section and the second tube section extends parallel to the vertical axis or at an acute angle to the vertical axis. 3. The drip chamber according to claim 1 , wherein, in the operating condition, the first tube section and the second tube section extend parallel or substantially parallel to each other. 4. The drip chamber according to claim 1 , wherein the first tube section and the second tube section have different lengths. 5. The drip chamber according to claim 1 , wherein the at least two first inlets are arranged adjacent the first end wall, the at least two second inlets are arranged adjacent the second end wall, or both. 6. The drip chamber according to claim 1 , wherein the at least two first inlets are located opposite one another in the first shell wall, and the at least two second inlets are located opposite one another in the second shell wall. 7. The drip chamber according to claim 1 , wherein the at least two first inlets and the at least two second inlets are formed such that the first and second fluids exit from the first and second tube sections, respectively, at angles to the first and second longitudinal axes. 8. The drip chamber according to claim 7 , wherein the angles lie in the range of from between 30° and 150°. 9. The drip chamber according to claim 7 , wherein each of the angles lies in the range of from between 60° and 120°. 10. The drip chamber according to claim 7 , wherein each of the angles lies in the range of from between 80° and 100°. 11. The drip chamber according to claim 1 , wherein the space is at least partly filled up to the fluid level with the blood or with a mixture of the blood and the infusion fluid. 12. The drip chamber according to claim 1 , wherein the first tube section and the second tube section have the same length. 13. The drip chamber according to claim 1 , wherein the at least two first inlets are arranged on opposite sides of the first tube section, are arranged at a common depth along the first tube section, and are of the same size. 14. A method of using a venous drip chamber in a blood treatment system, wherein the venous drip chamber comprises: a chamber wall having a top; a space defined by the chamber wall; a lid closing the space at the top of the chamber wall; a first tube section arranged on the lid, extending through the lid, and extending downwardly from the lid into the space; a second tube section arranged on the lid, extending through the lid, and extending downwardly from the lid into the space, wherein a portion of the lid extends between the first and second tube sections in a direction other than a downward direction; at least two first inlets for blood, the at least two first inlets being formed in a portion of the first tube section that extends downwardly from the lid and into the space; at least two second inlets for an infusion fluid to be mixed with the blood, the at least two second inlets being formed in a portion of the second tube section that extends downwardly from the lid and into the space, wherein the at least two first inlets and the at least two second inlets are in fluid communication with the space, wherein the first tube section has a first longitudinal axis, comprises a first shell wall surrounding the first longitudinal axis, comprises a first end wall in the space, and comprises a blood supply port, the first longitudinal axis passing through the first end wall, the at least two first inlets arranged laterally in the first shell wall and circumferentially spaced apart from one another, and wherein the second tube section has a second longitudinal axis, comprises a second shell wall surrounding the second longitudinal axis, comprises a second end wall in the space, and comprises an infusion fluid supply port, the second longitudinal axis passing through the second end wall, the at least two second inlets arranged laterally in the second shell wall and circumferentially spaced apart from one another; an extracorporeal blood circuit connected with the blood supply port; and a supply of infusion fluid in fluid communication with the infusion fluid supply port, the method comprising: at least partly filling the space with the blood or with a mixture of the blood and the infusion fluid, up to a fluid level, to form an air cushion above the fluid level, wherein each of the first and second tube sections extends downwardly from the lid, through the air cushion, and below the fluid level in the space, and the at least two first inlets and the at least two second inlets are located below the fluid level in the space. 15. The method according to claim 14 , further comprising maintaining an air cushion above the fluid level. 16. The method according to claim 14 , wherein the space defined by the chamber wall has a vertical axis, and at least one of the first and second tube sections extends parallel to the vertical axis or at an acute angle to the vertical axis. 17. The method according to claim 14 , wherein the at least two