Sealing interface to adjust radial and angular offset

The invention claimed is: 1. A sealing interface, comprising: a first tube having an end with a convex surface; a second tube having an end with a convex surface; a spacer disposed between the respective ends of the first tube and the second tube, the spacer including a first side, a second side, and a third side that extends from the first side to the second side, the third side having an outer surface that defines an outer periphery of the spacer, the first side of the spacer having a concave surface that substantially matches the convex surface of the end of the first tube, the second side of the spacer having a concave surface that substantially matches the convex surface of the end of the second tube, and the spacer including a through hole that extends from the first side to the second side, the through hole being in fluid communication with a fluid passageway of the first tube and a fluid passageway of the second tube; and a plurality of tying elements respectively coupled to the first tube and the second tube, the plurality of tying elements applying a compressive force between the first tube and the spacer, and the plurality of tying elements applying a compressive force between the second tube and the spacer, wherein a plurality of projections is provided proximate to respective ends of the first and second tubes, the plurality of projections being spaced around respective outer surfaces of the first and second tubes, and wherein the plurality of projections includes tabs that extend from respective outer surfaces of the first and second tubes for a distance sufficient to clear an outer periphery of each of the respective ends of the first and second tubes, each of the tabs has a hole defined therein proximate to an outer end thereof, and the plurality of tying elements is respectively coupled to the plurality of holes in the tabs of the first tube and the plurality of holes in the tabs of the second tube. 2. The sealing interface of claim 1 , wherein the end of the first tube has an annular channel defined therein, and a sealing member is disposed in the annular channel defined in the end of the first tube so that a portion of the sealing member is in the annular channel and a portion of the sealing member is in contact with the first side of the spacer. 3. The sealing interface of claim 2 , wherein the sealing member disposed in the annular channel defined in the end of the first tube is an O-ring. 4. The sealing interface of claim 2 , wherein the end of the second tube has an annular channel defined therein, and a sealing member is disposed in the annular channel defined in the end of the second tube so that a portion of the sealing member is in the annular channel and a portion of the sealing member is in contact with the second side of the spacer. 5. The sealing interface of claim 4 , wherein each of the sealing members disposed in the annular channels defined in the respective ends of the first and second tubes is an O-ring. 6. A sealing interface, comprising: a connected component having a first end, a second end, and an internal passageway extending from the first end to the second end, the first end being configured to be connected to a fluid source so that a fluid from the fluid source is guided away from the source through the internal passageway of the connected component, the second end including a convex surface and a flange, the flange having a plurality of holes defined therein; a tube having an end with a convex surface and a flange, the flange having a plurality of holes defined therein; a spacer disposed between the second end of the connected component and the end of the tube, the spacer including a first side, a second side, and a third side that extends from the first side to the second side, the third side having an outer surface that defines an outer periphery of the spacer, the first side of the spacer having a concave surface that substantially matches the convex surface of the second end of the connected component, the second side of the spacer having a concave surface that substantially matches the convex surface of the end of the tube, and the spacer including a through hole that extends from the first side to the second side, the through hole being in fluid communication with the internal passageway of the connected component and a fluid passageway of the tube; and a plurality of tying elements respectively coupled to the plurality of holes in the flange of the connected component and the plurality of holes in the flange of the tube, the plurality of tying elements applying a compressive force between the connected component and the spacer, and the plurality of tying elements applying a compressive force between the tube and the spacer, wherein the second end of the connected component has an annular channel defined therein, and a sealing member is disposed in the annular channel defined in the second end of the connected component so that a portion of the sealing member is in the annular channel and a portion of the sealing member is in contact with the first side of the spacer. 7. The sealing interface of claim 6 , wherein the sealing member disposed in the annular channel defined in the second end of the connected component is an O-ring. 8. The sealing interface of claim 6 , wherein the end of the tube has an annular channel defined therein, and a sealing member is disposed in the annular channel defined in the end of the tube so that a portion of the sealing member is in the annular channel and a portion of the sealing member is in contact with the second side of the spacer. 9. The sealing interface of claim 8 , wherein each of the sealing members disposed in the annular channels defined in the respective ends of the connected component and the tube is an O-ring. 10. The sealing interface of claim 6 , wherein the plurality of tying elements includes springs. 11. The sealing interface of claim 6 , wherein the flange of the connected component has four holes defined therein, the four holes being substantially evenly spaced around an outer periphery of the flange of the connected component, the flange of the tube has four holes defined therein, the four holes being substantially evenly spaced around an outer periphery of the flange of the tube, and four tying elements are respectively coupled to the four holes defined in the flange of the connected component and the four holes in the flange of the tube. 12. The sealing interface of claim 11 , wherein the four tying elements are springs. 13. The sealing interface of claim 6 , wherein the flange of the connected component has at least five holes defined therein, the at least five holes being spaced around an outer periphery of the flange of the connected component, the flange of the tube has at least five holes defined therein, the at least five holes being spaced around an outer periphery of the flange of the tube, and at least five tying elements are respectively coupled to the at least five holes defined in the flange of the connected component and the at least five holes in the flange of the tube. 14. The sealing interface of claim 13 , wherein the at least five tying elements include springs. 15. A sealing interface, comprising: a first tube having an end; a spacer having a first side, a second side, and a third side that extends from the first side to the second side, the third side having an outer surface that defines an outer periphery of the spacer, the first side of the spacer being attached to the end of the first tube, the second side of the spacer having a concave surface, and the spacer including a through hole that exten