Heat exchanger having a plurality of plate-like fins and a plurality of flat-shaped heat transfer pipes orthogonal to the plate-like fins

The invention claimed is: 1. A heat exchanger provided with a plurality of plate-like fins arranged in parallel with a predetermined interval and a plurality of flat-shaped heat transfer pipes inserted in a direction orthogonal to said plate-like fins and through which a refrigerant flows, wherein said heat transfer pipes have an outside shape with a flat outer face arranged along an air flow direction and a section substantially in an oval shape and first and second refrigerant flow passages made of two symmetric and substantially D-shaped through holes having a bulkhead between the two passages inside, which are press bonded to said plate-like fins by expanding diameters of said first and second refrigerant flow passages by a pipe-expanding burette ball, said first and second refrigerant flow passages have a plurality of protruding strips extending in an axial direction on an inner wall face other than said bulkhead, said plurality of protruding strips includes a protruding strip provided at corner portions of the bulkhead with a greater height than other protruding strips in said plurality of protruding strips, and distances from a center of said first and second refrigerant flow passages in the substantially oval-shaped section to each of the distal end portions of the plurality of the protruding strips are substantially equal, the center of said first and second refrigerant flow passages match a center of the pipe-expanding burette balls being inserted into said first and second refrigerant flow passages. 2. The heat exchanger according to claim 1 , wherein a height of at least one of the other protruding strips of the plurality of protruding strips after pipe expansion is approximately 0.1 to 0.3 mm. 3. A method of forming a heat exchanger, comprising: arranging a plurality of plate-like fins in parallel with a predetermined interval; inserting a plurality of flat-shaped heat transfer pipes through said plurality of plate-like fins in a direction orthogonal to said plurality of plate-like fins, said flat-shaped heat transfer pipes having an outside shape with a flat outer face arranged along an air flow direction and a section substantially in an oval shape, and first and second refrigerant flow passages made of two symmetric and substantially D-shaped through holes having a bulkhead between the first and second refrigerant flow passages, said first and second refrigerant passages having a flow passage with a plurality of protruding strips extending in an axial direction on an inner wall face, wherein said plurality of protruding strips includes a protruding strip provided at corner portions of the bulkhead; and inserting each of a pair of pipe-expanding burette balls into respective ones of said first and second refrigerant passages of said plurality of flat-shaped heat transfer pipes at the same time, said pipe-expanding burette balls being driven along a length of each of said plurality of flat-shaped heat transfer pipes with an outer circumferential face of said pipe-expanding burette balls contacting distal ends of said plurality of protruding strips, to expand a diameter of each of said plurality of flat-shaped heat transfer pipes into contact with said plurality of plate-like fins and press bond said plurality of flat-shaped heat transfer pipes to said plurality of plate-like fins. 4. The method of forming the heat exchanger according to claim 3 , wherein a height of at least one of the plurality of protruding strips is approximately 0.1 to 0.3 mm after the diameter of each of said plurality of flat-shaped heat transfer pipes is expanded using said pipe-expanding burette ball.