Suspension structure for vehicle

The invention claimed is: 1. A vehicle suspension structure comprising: a suspension arm having a vehicle-widthwise inner side end connected to a suspension member and a vehicle-widthwise outer side end connected to a vehicle wheel; and a ball joint connecting the suspension arm and the vehicle wheel, the ball joint comprising a spherical body, a spherical housing accommodating the spherical body, and a shaft portion provided on the spherical body so as to extend outwardly from the spherical housing, the spherical housing being configured to pivot relative to the spherical body as the suspension arm deforms, and the spherical housing having an open end that interferes with the shaft portion causing the spherical body to come out of the spherical housing when the vehicle receives an impact in a longitudinal direction, and the suspension arm and the ball joint being configured such that a breaking load that breaks linking parts between the suspension arm and the suspension member, upon the vehicle receiving the impact in the longitudinal direction, is greater than a drop-off load where the spherical body of the ball joint comes out of the spherical housing upon the vehicle receiving the impact in the longitudinal direction. 2. The vehicle suspension structure according to claim 1 , wherein the suspension arm is connected to the suspension member by linking parts at two locations spaced apart in the vehicle longitudinal direction, and linked to the vehicle wheel in one location by a linking part of the ball joint, the spherical housing is configured to pivot relative to the spherical body as the suspension arm bends while the vehicle receives the impact in the longitudinal direction, and the open end of the spherical housing interferes with the shaft portion causing the spherical body to come out of the spherical housing upon the vehicle receiving the impact in the longitudinal direction, the suspension arm is configured to bend at a position between the linking parts in at least two of the locations from among the three locations of the linking parts, the linking part between the suspension arm and the suspension member includes a bushing having a vertical direction of the vehicle as an axis; and the linking part of the suspension arm with respect to the bushing is shifted in an axial direction relative to an axial center of the bushing. 3. The vehicle suspension structure according to claim 1 , wherein the suspension arm and the ball joint are configured such that a vehicle-widthwise outer side surface of a rim portion of the vehicle wheel is positioned further on the vehicle-widthwise outer side than the vehicle-widthwise outer side surface of a side sill that is provided extending in the vehicle longitudinal direction on the vehicle-widthwise outer side. 4. The vehicle suspension structure according to claim 1 , wherein the suspension arm and the ball joint are configured such that the vehicle wheel is moved in the longitudinal direction relative to the vehicle body by the spherical body coming out of the spherical housing, and a guide portion that moves the moved vehicle wheel toward the vehicle-widthwise outer side is provided on the vehicle body. 5. The vehicle suspension structure according to claim 1 , wherein the suspension arm is connected to the suspension member by linking parts at two locations spaced apart in the vehicle longitudinal direction, and linked to the vehicle wheel in one location by a linking part of the ball joint, the spherical housing is configured to pivot relative to the spherical body as the suspension arm bends while the vehicle receives the impact in the longitudinal direction, and the open end of the spherical housing interferes with the shaft portion causing the spherical body to come out of the spherical housing upon the vehicle receiving the impact in the longitudinal direction, the suspension arm is configured to bend at a position between the linking parts in at least two of the locations from among the three locations of the linking parts. 6. A vehicle suspension structure comprising: a suspension arm having a vehicle-widthwise inner side end connected to a suspension member and a vehicle-widthwise outer side end connected to a vehicle wheel; and a ball joint connecting the suspension arm and the vehicle wheel, the ball joint comprising a spherical body, a spherical housing accommodating the spherical body, and a shaft portion provided on the spherical body so as to extend outwardly from the spherical housing, the spherical housing being configured to pivot relative to the spherical body as the suspension arm deforms, and the spherical housing having an open end that interferes with the shaft portion causing the spherical body to come out of the spherical housing when the vehicle receives an impact in a longitudinal direction, and the ball joint being configured such that a distance in the vehicle longitudinal direction between the open end of the spherical housing and the shaft portion is different in portions that oppose each other sandwiching the spherical body therebetween. 7. The vehicle suspension structure according to claim 6 , wherein the spherical housing comprises a bottom portion and a side portion that rises from an outer peripheral edge of the bottom portion; and a length of the side portion that rises from the bottom portion is different in portions that oppose each other sandwiching the spherical body therebetween. 8. The vehicle suspension structure according to claim 6 , wherein the spherical housing comprises a bottom portion and a side portion that rises from an outer peripheral edge of the bottom portion; a length of the side portion that rises from the bottom portion is uniform along a circumferential direction; and a distance between an open end of the spherical housing and the shaft portion is different in portions that oppose each other sandwiching the spherical body therebetween by tilting a central axis of the spherical housing relative to a central axis of the shaft portion. 9. A vehicle suspension structure comprising: a suspension arm having a vehicle-widthwise inner side end connected to a suspension member and a vehicle-widthwise outer side end connected to a vehicle wheel; and a ball joint connecting the suspension arm and the vehicle wheel, the ball joint comprising a spherical body, a spherical housing accommodating the spherical body, and a shaft portion provided on the spherical body so as to extend outwardly from the spherical housing, the spherical housing being configured to pivot relative to the spherical body as the suspension arm deforms, and the spherical housing having an open end that interferes with the shaft portion causing the spherical body to come out of the spherical housing when the vehicle receives an impact in a longitudinal direction, and the suspension arm and the ball joint being configured such that a breaking load that breaks the suspension arm near linking parts connecting with the suspension member, upon the vehicle receiving the impact in the longitudinal direction, is greater than a drop-off load where the spherical body of the ball joint comes out of the spherical housing upon the vehicle receiving the impact in the longitudinal direction. 10. A vehicle suspension structure comprising: a suspension arm having a vehicle-widthwise inner side end connected to a suspension member and a vehicle-widthwise outer side end connected to a vehicle wheel; and a ball joint connecting the suspension arm and the vehicle wheel, the ball joint comprising a spherical body, a spherical housing accommodating the spherical body, and a shaft portion provided on the spherical body so as to extend out