Filtration filter

The invention claimed is: 1. A filtration filter comprising: a metallic mesh having a circumference and radially inner and outer portions, the metallic mesh being adapted to filter out a filtration target object contained in a fluid passing through the metallic mesh; and first and second frame members holding the outer portion of the metallic mesh there between so as to create first and second bent sections in the metallic mesh separated by a transition section in the metallic mesh extending between the first and second bent sections, the first and second frame members cooperating to define a straight passage which extends from the first to the second bent sections and through which the transition section of the metallic mesh extends, at least one streaked projection located on and extending outwardly from a surface of the transition section; wherein the streaked projections are creases formed in the metallic mesh. 2. The filtration filter according to claim 1 , wherein a plurality of streaked projections are located on the surface of the transition section. 3. The filtration filter according to claim 2 , wherein at least one of the streaked projections extends in a direction intersecting a radial direction extending from a center of the metallic mesh. 4. The filtration filter according to claim 2 , wherein the transition section has a radially inward half and a radially outward half and more of the streaked projections are located on the radially inward half than the radially outward half. 5. The filtration filter according to claim 2 , wherein the plurality of streaked projections are arranged in irregular directions. 6. The filtration filter according to claim 1 , wherein the transition section is conical in shape. 7. The filtration filter according to claim 1 , wherein the first and second frame members have opposing walls which sandwich the outer portion of the metallic mesh, the opposing walls having: first sections which cooperate to define a first gap which houses the transition section; and second sections, located radially outward from the second bent section, which cooperate to define a second gap which houses a portion of the outer portion of the metallic mesh located radially outward of the second bent section, the first gap being smaller than the second gap. 8. The filtration filter according to claim 1 , wherein the metallic mesh is circular in shape. 9. The filtration filter according to claim 1 , wherein the inner portion of the metallic mesh lies in a plane and the transition section moves downwardly from the plane. 10. The filtration filter according to claim 9 , wherein the transition section extends from the plane at an obtuse angle. 11. The filtration filter according to claim 1 , wherein the metallic mesh has a thickness and the streaked projections extend outwardly from the surface of the transition section by a length that is 0.1 to 2.0 times the thickness of the metallic mesh. 12. A filtration filter device comprising: a metallic mesh having first and second opposed principle surfaces and a circumference, the metallic mesh having radially inner and outer portions; and a housing encompassing the metallic mesh and defining a fluid incoming path which opposes the first principal surface of the metallic mesh and a fluid discharging path which opposes the second principal surface, the housing including: a first housing section defining the fluid incoming path, the first housing section including a first frame member; and a second housing section defining the fluid discharge path and including a second frame member; and the first housing section and the second housing section being fitted to each other in such a manner that the first and second frame members hold the outer portion of the metallic mesh there between so as to create first and second bent sections in the metallic mesh separated by a transition section in the metallic mesh extending between the first and second bent sections, the first and second frame members cooperating to define a straight passage which extends from the first to the second bent sections and through which the transition section of the metallic mesh extends, the transition section including at least one streaked projection located on and extending outwardly from a surface of the transition section; wherein the streaked projections are creases formed in the metallic mesh. 13. The filtration filter device according to claim 12 , wherein a plurality of streaked projections are located on the surface of the transition section. 14. The filtration filter device according to claim 13 , wherein at least one of the streaked projections extends in a direction intersecting a radial direction extending from a center of the metallic mesh. 15. The filtration filter device according to claim 14 , wherein the transition section has a radially inward half and a radially outward half and more of the streaked projections are located on the radially inward half than the radially outward half. 16. The filtration filter device according to claim 14 , wherein the plurality of streaked projections are arranged in irregular directions. 17. The filtration filter device according to claim 12 , wherein the transition section is conical in shape. 18. The filtration filter device according to claim 12 , wherein the first and second frame members have opposing walls which sandwich the outer portion of the metallic mesh, the opposing walls having: first sections which cooperate to define a first gap which houses the transition section; and second sections, located radially outward from the second bent section, which cooperate to define a second gap which houses a portion of the outer portion of the metallic mesh located radially outward of the second bent section, the first gap being smaller than the second gap. 19. The filtration filter device according to claim 12 , wherein the transition section is conical in shape and has a conical outer surface and the at least one streaked projection extends outwardly from the conical outward surface. 20. The filtration filter device according to claim 12 , wherein the transition section, as viewed in cross section, is straight. 21. The filtration filter according to claim 1 , wherein the transition section is conical in shape and has a conical outer surface and the at least one streaked projection extends outwardly from the conical outward surface. 22. The filtration filter according to claim 1 , wherein the transition section, as viewed in cross section, is straight.