Outer joint member of a constant velocity universal joint

The invention claimed is: 1. An outer joint member of a constant velocity universal joint, the outer joint member comprising: a cup section having track grooves formed in an inner periphery of the cup section, the track grooves being engageable with torque transmitting elements; and a shaft section formed at a bottom portion of the cup section, wherein the outer joint member is constructed by forming the cup section and the shaft section as separate members, and by bringing a cup member forming the cup section and a shaft member forming the shaft section into abutment against each other and welding the cup member and the shaft member, the cup member has a first joining end surface and the shaft member has a second joining end surface, the first and second joining end surfaces abutting against each other to thereby form a hollow cavity portion, the cup member has, at an axial center of the cup member, a ventilation hole that communicates with the hollow cavity portion, one of the first and second joining end surfaces has a welding spatter receiving groove formed on a radially inner side thereof, one of the first and second joining end surfaces has an annular blocking portion formed on a radially inner side of the welding spatter receiving groove, a gap being formed between the annular blocking portion and another of the first and second joining end surfaces, and the welding spatter receiving groove is vented to the hollow cavity portion through the gap. 2. The outer joint member of a constant velocity universal joint according to claim 1 , wherein the ventilation hole has a center hole. 3. The outer joint member of a constant velocity universal joint according to claim 1 , wherein the welding spatter receiving groove has a rectangular cross section on a plane that is parallel to and intersects a central axis of the outer joint member. 4. The outer joint member of a constant velocity universal joint according to claim 1 , wherein the welding spatter receiving groove has a triangular cross section on a plane that is parallel to and intersects a central axis of the outer joint member. 5. The outer joint member of a constant velocity universal joint according to claim 1 , wherein the one of the first and second joining end surfaces having the welding spatter receiving groove and the one of the first and second joining end surfaces having an annular blocking portion are the same. 6. An outer joint member of a constant velocity universal joint, the outer joint member comprising: a cup section having track grooves formed in an inner periphery of the cup section, the track grooves being engageable with torque transmitting elements; and a shaft section located at a bottom portion of the cup section, wherein the cup section has an end portion and the shaft section has an end portion, the end portion of the cup section being attached to the end portion of the shaft section by a weld, the end portion of the cup section has a first joining end surface and the end portion of the shaft section has a second joining end surface, the first and second joining end surfaces abutting against each other to thereby form a hollow cavity portion, the cup section has, at an axial center of the cup section, a ventilation hole that communicates with the hollow cavity portion, one of the first and second joining end surfaces has a welding spatter receiving groove formed on a radially inner side thereof, one of the first and second joining end surfaces has an annular blocking portion formed on a radially inner side of the welding spatter receiving groove, a gap being formed between the annular blocking portion and another of the first and second joining end surfaces, and the welding spatter receiving groove is vented to the hollow cavity portion through the gap. 7. The outer joint member of a constant velocity universal joint according to claim 6 , wherein the ventilation hole has a center hole. 8. The outer joint member of a constant velocity universal joint according to claim 6 , wherein the welding spatter receiving groove has a rectangular cross section on a plane that is parallel to and intersects a central axis of the outer joint member. 9. The outer joint member of a constant velocity universal joint according to claim 6 , wherein the welding spatter receiving groove has a triangular cross section on a plane that is parallel to and intersects a central axis of the outer joint member. 10. The outer joint member of a constant velocity universal joint according to claim 6 , wherein the one of the first and second joining end surfaces having the welding spatter receiving groove and the one of the first and second joining end surfaces having an annular blocking portion are the same. 11. An outer joint member kit for a constant velocity universal joint, the outer joint member kit comprising: a cup section having track grooves formed in an inner periphery of the cup section, the track grooves being engageable with torque transmitting elements; and a plurality of shaft sections each of the plurality of shaft sections having at a dimension that is different from a remainder of the plurality of shaft sections, wherein the cup section has an end portion and the shaft sections each have an end portion, the end portion of the cup section being attachable to the end portion of one of the shaft sections by a weld, the end portion of the cup section has a first joining end surface and the end portion of each of the shaft sections has a second joining end surface, the first joining end surface of the cup section and the second joining end surface of the one of the shaft sections abutting against each other to thereby form a hollow cavity portion when the cup section and the one of the shaft sections are attached, the cup section has, at an axial center of the cup section, a ventilation hole that communicates with the hollow cavity portion, the second joining end surface of each of the shaft sections has a welding spatter receiving groove formed on a radially inner side thereof, the second joining end surface of each of the shaft sections has an annular blocking portion formed on a radially inner side of the welding spatter receiving groove, a gap is formed between the annular blocking portion of the one of the shaft sections and the first joining end surface of the cup section when the cup section and the one of the shaft sections are attached, the welding spatter receiving groove is vented to the hollow cavity portion through the gap when the cup section and the one of the shaft sections are attached, and the welding spatter receiving grooves of the shaft sections all have equal dimensions.