Fuel supply pump and manufacturing method of housing of the same

What is claimed is: 1. A fuel supply pump comprising: a plunger that is adapted to reciprocate in an axial direction thereof; and a housing that includes a cylinder hole, in which the plunger is axially slidably received, wherein: one axial end portion of the cylinder hole is fluid-tightly closed by the plunger to form a pressurizing chamber therein; the plunger is adapted to reciprocate and slide in the axial direction in the cylinder hole to change a volume of the pressurizing chamber and thereby to draw fuel into the pressurizing chamber and then discharge the fuel from the pressurizing chamber upon pressurization of the fuel in the pressurizing chamber; a discharge flow passage is connected to the pressurizing chamber at the housing and is adapted to guide and discharge the pressurized fuel from the pressurizing chamber to an outside of the fuel supply pump; a connection opening of the discharge flow passage opens to the pressurizing chamber and is formed in a hole wall of the cylinder hole, which forms the pressurizing chamber; a prestressed area is formed in the hole wall of the cylinder hole and a passage wall of the discharge flow passage such that the prestressed area includes an inner peripheral edge of the connection opening and has a residual compression stress generated by a pressure that is applied through autofrettage; a check valve is placed in the discharge flow passage to limit a backflow of the fuel into the pressurizing chamber; the check valve opens to conduct the pressurized fuel from the pressurizing chamber to the outside of the fuel supply pump through the discharge flow passage when a fuel pressure of the pressurized fuel in the pressurizing chamber becomes larger than predetermined valve opening pressure; a seat, relative to which a valve element of the check valve is adapted to be seated and lifted, is formed in the passage wall of the discharge flow passage; and a pressure applying area, to which the pressure is applied through the autofrettage to form the prestressed area, does not reach to the seat in the passage wall of the discharge flow passage. 2. The fuel supply pump according to claim 1 , wherein: the hole wall of the cylinder hole is divided into a slidable wall portion, on which the plunger is adapted to slide, and a non-slidable wall portion, on which the plunger does not slide; the connection opening is connected to the non-slidable wall portion; and the pressure applying area, to which the pressure is applied through the autofrettage to form the prestressed area, extends from the non-slidable wall portion into a portion of the slidable wall portion beyond a boundary between the non-slidable wall portion and the slidable wall portion. 3. The fuel supply pump according to claim 1 , wherein: the connection opening is connected to a non-slidable wall portion, on which the plunger does not slide, in the hole wall of the cylinder hole; and the pressure applying area of the hole wall of the cylinder hole, to which the pressure is applied through the autofrettage to form the prestressed area, is limited within the non-slidable wall portion in the hole wall of the cylinder hole. 4. The fuel supply pump according to claim 1 , wherein: the hole wall of the cylinder hole is divided into a slidable wall portion, on which the plunger is adapted to slide, and a non-slidable wall portion, on which the plunger does not slide; the connection opening is connected to the non-slidable wall portion; and the slidable wall portion has a hardness, which is higher than a hardness of the inner peripheral edge of the connection opening at time immediately before application of the pressure through the autofrettage. 5. The fuel supply pump according to claim 4 , wherein a difference between the hardness of the slidable wall portion and the hardness of the inner peripheral edge of the connection opening is equal to or higher than HV 100 at the time immediately before application of the pressure through the autofrettage. 6. The fuel supply pump according to claim 4 , wherein the hardness of the slidable wall portion is increased relative to the hardness of the inner peripheral edge of the connection opening by one of a carburizing process, a nitriding process, an induction hardening process and a laser hardening process. 7. The fuel supply pump according to claim 6 , wherein the inner peripheral edge of the connection opening is processed through the carburizing process after performing an anti-carburizing process on the inner peripheral edge of the connection opening. 8. The fuel supply pump according to claim 6 , wherein a surface portion of the inner peripheral edge of the connection opening is removed after performing the one of the carburizing process, the nitriding process, the induction hardening process and the laser hardening process. 9. A manufacturing method for a housing of a fuel supply pump, comprising: forming the housing from a metal material such that the housing includes: a cylinder hole, which is adapted to receive a plunger in an axially slidable manner and forms a pressurizing chamber in one axial end portion of the cylinder hole to pressurize fuel therein upon slide movement of the plunger in the cylinder hole; and a discharge flow passage, which is connected to the pressurizing chamber and is adapted to guide and discharge the pressurized fuel from the pressurizing chamber to an outside of the housing, wherein a connection opening of the discharge flow passage opens to the pressurizing chamber and is formed in a hole wall of the cylinder hole, which forms the pressurizing chamber; and applying a pressure to a predetermined prestressing subject area in the hole wall of the cylinder hole and a passage wall of the discharge flow passage through autofrettage to generate a residual compression stress in the predetermined prestressing subject area and thereby to form a prestressed area, wherein the predetermined prestressing subject area includes an inner peripheral edge of the connection opening, wherein: the forming of the housing includes forming a seat in the passage wall of the discharge flow passage such that the seat is configured to be engageable with a valve element of a check valve, which is adapted to be received in the discharge flow passage; and the applying of the pressure includes applying the pressure through the autofrettage in a pressure applying area which includes the predetermind prestressing subject area, such that the pressure applying area does not reach to the seat in the passage wall of the discharge flow passage. 10. The manufacturing method according to claim 9 , wherein: the forming of the housing includes forming the cylinder hole such that the hole wall of the cylinder hole is divided into a slidable wall portion, on which the plunger is adapted to slide, and a non-slidable wall portion, on which the plunger does not slide, and the connection opening is connected to the non-slidable wall portion; and the pressure applying area includes the predetermined prestressing subject area and extends from the non-slidable wall portion into a portion of the slidable wall portion beyond a boundary between the non-slidable wall portion and the slidable wall portion. 11. The manufacturing method according to claim 9 , wherein; the forming of the housing includes forming the cylinder hole such that the hole wall of the cylinder hole is divided into a slidable wall portion, on which the plunger is adapted to slide, and a non-slidable wall portion, on which the plunger does not slide, and the connection opening is connected to the non-slidable wall portion; and the pressure applying area of the hole wall of the cylinder hole