Brazed heat exchanger

What is claimed is: 1. A brazed heat exchanger, particularly a condenser, comprising: a block including flat tubes, fins, and a first and a second header tube arranged at opposing ends of each of the flat tubes; a dryer cylinder arranged parallel to, and spaced apart from, one of the first and second header tubes, wherein at least a portion of an outer surface of the dryer cylinder is profiled to provide an enlarged outer surface, wherein the dryer cylinder is formed as an extrusion, portions of the extrusion being subsequently removed to define the first and second projection-type connections and the planar outer surface; a first and a second projection-type connection arranged on a straight line and integrally formed with the dryer cylinder, the first and second projection-type connections extending from a planar outer surface of the dryer cylinder across the spacing between the dryer cylinder and said one of the first and second headers; a first opening extending through the first projection-type connection to allow refrigerant to enter the dryer cylinder from said one of the first and second headers; and a second opening extending through the second projection-type connection to allow refrigerant to return to said one of the first and second headers from the dryer cylinder. 2. The brazed heat exchanger of claim 1 , wherein the outer surface of the dryer cylinder includes a grooved outer surface. 3. The brazed heat exchanger of claim 2 , wherein the grooved outer surface includes grooves that extend in a straight line in a longitudinal direction. 4. The brazed heat exchange of claim 2 , wherein the grooved outer surface includes grooves that extend in a coil in a longitudinal direction. 5. The brazed heat exchanger of claim 1 , wherein an inner surface of the dryer cylinder is smooth. 6. The brazed heat exchanger of claim 1 , wherein the first and second projection-type connections include a grooved surface. 7. The brazed heat exchanger of claim 1 , further comprising fittings brazed to the other one of the first and second header tubes, the fittings configured to supply and discharge a refrigerant, wherein the fittings include an outer surface that is profiled. 8. The brazed heat exchanger of claim 1 , wherein the dryer cylinder has a generally cylindrical shape with a smooth inner surface and an outer surface that is at least partially profiled to provide an enlarged outer surface. 9. The brazed heat exchanger of claim 1 , wherein at least portions of the outer surfaces of the first and second projection-type connections are profiled to provide an enlarged outer surface. 10. The brazed heat exchanger of claim 1 , further comprising at least one additional projection-type connection integrally formed with the dryer cylinder, the at least one additional projection-type connection extending across the spacing between the dryer cylinder and said one of the first and second headers. 11. The brazed heat exchanger of claim 10 , wherein the at least one additional projection-type connection is arranged between the first and the second projection-type connections on the straight line. 12. A brazed heat exchanger, particularly a condenser, comprising: a block including flat tubes, fins, and a first and a second header tube arranged at opposing ends of each of the flat tubes; a dryer cylinder arranged parallel to, and spaced apart from, one of the first and second header tubes, wherein at least a portion of an outer surface of the dryer cylinder is profiled to provide an enlarged outer surface, wherein the dryer cylinder is formed as an extrusion and the planar outer surface is formed by machining away material of the extrusion on either side of each of the first and the second projection-type connections; a first and a second projection-type connection arranged on a straight line and integrally formed with the dryer cylinder, the first and second projection-type connections extending from a planar outer surface of the dryer cylinder across the spacing between the dryer cylinder and said one of the first and second headers; a first opening extending through the first projection-type connection to allow refrigerant to enter the dryer cylinder from said one of the first and second headers; and a second opening extending through the second projection-type connection to allow refrigerant to return to said one of the first and second headers from the dryer cylinder. 13. The brazed heat exchanger of claim 12 , wherein the outer surface of the dryer cylinder includes a grooved outer surface. 14. The brazed heat exchanger of claim 13 , wherein the grooved outer surface includes grooves that extend in a straight line in a longitudinal direction. 15. The brazed heat exchange of claim 13 , wherein the grooved outer surface includes grooves that extend in a coil in a longitudinal direction. 16. The brazed heat exchanger of claim 13 , wherein the grooved outer surface includes grooves that extend transversely to a longitudinal direction of the dryer cylinder. 17. The brazed heat exchanger of claim 12 , further comprising fittings brazed to the other one of the first and second header tubes, the fittings configured to supply and discharge a refrigerant, wherein the fittings include an outer surface that is profiled. 18. The brazed heat exchanger of claim 12 , wherein the dryer cylinder has a generally cylindrical shape with a smooth inner surface and an outer surface that is at least partially profiled to provide an enlarged outer surface. 19. The brazed heat exchanger of claim 12 , further comprising at least one additional projection-type connection integrally formed with the dryer cylinder, the at least one additional projection-type connection extending across the spacing between the dryer cylinder and said one of the first and second headers, and wherein the at least one additional projection-type connection is arranged between the first and the second projection-type connections on the straight line.