Refrigerant pipe, method of manufacturing the refrigerant pipe, and heat exchanger including the refrigerant pipe

The invention claimed is: 1. A refrigerant pipe comprising: a heat-exchanger-side pipe having a pipe component insertion flare formed at an end portion of the heat-exchanger-side pipe and at least one protrusion formed on an inner peripheral surface of the pipe component insertion flare; and a pipe component having a smaller outer diameter than an inner diameter of the pipe component insertion flare, wherein a protrusion diameter, which is defined by a radially innermost point of the protrusion, is less than the outer diameter of the pipe component, a distal end section of the pipe component is located inside the pipe component insertion flare and extends from a distal end of the pipe component to an entrance of the insertion flare when the pipe component is fully inserted in the pipe component insertion flare, the pipe component has a groove formed by the at least one protrusion, the pipe component is held by the heat-exchanger-side pipe with the at least one protrusion and the groove in contact with each other, the distal end section of the pipe component is cylindrical and has a uniform outer diameter prior to being inserted into the pipe component insertion flare, and the protrusion contacts the pipe component at a location spaced apart from the distal end of the pipe component. 2. The refrigerant pipe of claim 1 , wherein a material of at least one of the heat-exchanger-side pipe and the pipe component is aluminum. 3. The refrigerant pipe of claim 1 , wherein the at least one protrusion comprises three or more protrusions on the inner peripheral portion of the pipe component insertion flare. 4. The refrigerant pipe of claim 1 , further comprising: a brazing material receiving flare configured to guide the pipe component into the pipe component insertion flare, wherein the at least one protrusion is provided on a portion of the pipe component insertion flare adjacent to the brazing material receiving flare. 5. The refrigerant pipe of claim 1 , wherein a protrusion receiver configured to engage with the at least one protrusion is provided on an outer peripheral portion of the pipe component, and when the pipe component is inserted into the pipe component insertion flare, the protrusion receiver moves over the at least one protrusion. 6. The refrigerant pipe of claim 1 , wherein the heat-exchanger-side pipe includes a main body and a separate body bonded to the main body, the separate body including a portion overlapping with the pipe component in a vicinity of the portion. 7. The refrigerant pipe of claim 1 , wherein the pipe component and the heat-exchanger-side pipe are brazed to each other with a brazing material. 8. The refrigerant pipe of claim 1 , further comprising a heat-exchanger-side pipe tip end portion having one end into which the pipe component is inserted, and another end bonded to the heat-exchanger-side pipe, wherein the heat-exchanger-side pipe is a flat pipe. 9. A heat exchanger comprising: a fin configured to transfer heat of refrigerant; and the refrigerant pipe of claim 1 , wherein the refrigerant pipe penetrates the fin, and the refrigerant flows through the refrigerant pipe. 10. A method of manufacturing a refrigerant pipe, comprising: providing a pipe component insertion flare at an end portion of a heat-exchanger-side pipe; forming a protrusion on an inner peripheral portion of the pipe component insertion flare; and inserting a distal end section of a pipe component into the pipe component insertion flare to cause the protrusion to form a groove on the pipe component and to press-contact the protrusion and the groove against each other to fix the pipe component, wherein the distal end section of the pipe component extends from a distal end of the pipe component to an entrance of the insertion flare when the pipe component is fully inserted into the pipe component insertion flare, and the distal end section is cylindrical with a uniform outer diameter prior to being inserted into the pipe component insertion flare, and wherein a protrusion diameter, which is defined by a radially innermost point of the protrusion, is less than an outer diameter of the pipe component.