Ball joint and manufacturing method therefor

The invention claimed is: 1. A ball joint, comprising: a ball; a resin sliding contact member having a sliding contact surface held in sliding contact with the ball, for covering a largest diameter portion of the ball, the resin sliding contact member comprising a first opening portion and a second opening portion that expose a spherical surface of the ball in opposite directions; a holder formed through casting by using, as a core, the ball and the resin sliding contact member mounted so as to cover the ball, the holder comprising: a main body portion for covering a periphery of the resin sliding contact member; and a closing portion for covering a part of the spherical surface of the ball, which projects from the second opening portion of the resin sliding contact member, so as to be held in contact with the ball, the main body portion and the closing portion being molded integrally with each other, the holder being kept out of contact with another part of the spherical surface of the ball, which is exposed from the first opening portion of the resin sliding contact member; and a shaft member joined to the another part of the spherical surface of the ball, which is exposed from the first opening portion of the resin sliding contact member, through electric resistance welding after the casting of the holder, to thereby construct a ball stud, wherein the resin sliding contact member covers the largest diameter portion of the ball, wherein an inner diameter of the second opening portion is set to be smaller than an inner diameter of the first opening portion, and wherein the inner diameter of the second opening portion of the resin sliding contact member is set so that an area of the part of the spherical surface of the ball, which is held in contact with the closing portion of the holder through the second opening portion, is larger than an area of a portion in which the shaft member is welded to the ball. 2. A manufacturing method for a ball joint, comprising the steps of: molding a resin sliding contact member having a sliding contact surface held in sliding contact with the ball, for covering a largest diameter portion of the ball, the resin sliding contact member comprising a first opening portion and a second opening portion that expose a spherical surface of the ball in opposite directions; molding a holder through casting by using, as a core, the ball and the resin sliding contact member mounted to cover the ball, the holder comprising the following portions that are integrally molded together: a main body portion for covering a periphery of the resin sliding contact member; and a closing portion for covering a part of the spherical surface of the ball, which projects from the second opening portion of the resin sliding contact member, so as to be held in contact with the ball, the holder being kept out of contact with another part of the spherical surface of the ball, which is exposed from the first opening portion of the resin sliding contact member; and forming a ball stud by bringing a shaft member into abutment against the another part of the spherical surface of the ball, which is exposed from the first opening portion of the resin sliding contact member, bringing an electrode into contact with the shaft member, bringing another electrode into contact with the closing portion of the holder, which is held in contact with the ball, and by joining the ball and the shaft member to each other through electric resistance welding. 3. The manufacturing method for a ball joint according to claim 2 , wherein the resin sliding contact member covers the largest diameter portion of the ball, and wherein an inner diameter of the second opening portion is set to be smaller than an inner diameter of the first opening portion. 4. The manufacturing method for a ball joint according to claim 3 , wherein the inner diameter of the second opening portion of the resin sliding contact member is set so that an area of the part of the spherical surface of the ball, which is held in contact with the closing portion of the holder through the second opening portion, is larger than an area of a portion in which a distal end surface of the shaft member is projected onto the ball. 5. The manufacturing method for a ball joint according to claim 2 , further comprising bringing the ball and a distal end concave spherical surface of the closing portion out of contact with each other by applying, in an axial direction of the ball stud, a clearance securing load to the ball stud after forming the ball stud. 6. The manufacturing method for a ball joint according to claim 5 , further comprising bringing, at the time of applying the clearance securing load to the ball stud, an annular pressure receiving jig into abutment against the closing portion of the holder. 7. The manufacturing method for a ball joint according to claim 2 , further comprising the resin sliding contact member applying a force against the ball in a direction away from said closing portion such as to reduce a contact pressure between the ball and the closing portion or create a clearance between the ball and the closing portion. 8. The manufacturing method for a ball joint according to claim 7 , further comprising the resin sliding contact member applying a force against the ball in a direction away from said closing portion such as to reduce a contact pressure between the ball and the closing portion. 9. The manufacturing method for a ball joint according to claim 7 , further comprising the resin sliding contact member applying a force against the ball in a direction away from said closing portion such as to create a clearance between the ball and the closing portion. 10. A ball joint, comprising: a ball; a resin sliding contact surface held in sliding contact with the hall, for covering a largest diameter portion of the ball, the resin sliding contact member comprising a first opening portion and a second opening portion that expose a spherical surface of the ball in opposite directions; a holder formed through casting by using, as a core, the ball and the resin sliding contact member mounted so as to cover the ball, the holder comprising: a main body portion for covering a periphery of the resin sliding contact member; and a closing portion for covering a part of the spherical surface of the ball, which projects from the second opening portion of the resin sliding contact member, the main body portion and the closing portion being molded integrally with each other, the holder being kept out of contact with another part of the spherical surface of the ball, which is exposed from the first opening portion of the resin sliding contact member; a shaft member joined to the another part of the spherical surface of the ball, which is exposed from the first opening portion of the resin sliding contact member, through electric resistance welding after the casting of the holder, to thereby construct a ball stud; wherein a clearance is secured between the spherical surface of the ball and the closing portion of the holder in the second opening portion of the resin sliding contact member, and a distal end of the closing portion is hollow with respect to the sliding contact surface of the resin sliding contact member.