Rack guide for rack and pinion steering device, rack and pinion steering device and manufacturing method of rack guide for rack and pinion steering device

What is claimed is: 1. A rack and pinion steering device comprising: a casing; a pinion to be slidably supported by said casing; a rack bar having a rack tooth meshed with said pinion; a rack guide comprising an abutment portion having an abutment surface to which said rack bar is to be slidably abutted and a recessed portion, which is continued to said abutment portion, to be spaced from said rack bar; a rack guide base member for receiving said rack guide; and an urging unit for urging said rack guide against said rack bar through said rack guide base member, wherein, in a cross sectional view along a central line of the rack guide, a thickness dimension of said recessed portion is different from that of said abutment portion, the abutment surface and an abutment portion outer surface to face the rack guide base member have a common center of curvature and each of the abutment surface and the abutment portion outer surface has a single curvature of radius. 2. A rack and pinion steering device according to claim 1 , wherein said thickness dimension of said recessed portion becomes gradually decreasing as the recessed portion becomes away from said abutment portion. 3. A rack and pinion steering device according to claim 2 , wherein an abutment surface of abutment portion to be abutted to said rack bar has a surface constituted by a plastic material. 4. A rack and pinion steering device according to claim 3 , wherein an outer surface of said rack guide to be abutted to said rack guide base member has a single curvature radius, or a single inclination at each of a right side and a left side with respect to the central line. 5. A rack and pinion steering device according to claim 3 , wherein said plastic material is a resin, a porous metal or a sintered alloy. 6. A rack and pinion steering device according to claim 2 , wherein an outer surface of said rack guide to be abutted to said rack guide base member has a single curvature radius, or a single inclination at each of a right side and a left side with respect to the central line. 7. A rack and pinion steering device according to claim 1 , wherein the abutment surface is constituted by a plastic material. 8. A rack guide manufacturing method according to claim 7 , wherein said plastic material is a resin, a porous metal or a sintered alloy. 9. A rack and pinion steering device according to claim 7 , wherein an outer surface of said rack guide to be abutted to said rack guide base member has a single curvature radius, or a single inclination at each of a right side and a left side with respect to the central line. 10. A rack and pinion steering device according to claim 1 , wherein an outer surface of said rack guide to be abutted to said rack guide base member has a single curvature radius, or a single inclination at each of a right side and a left side with respect to the central line. 11. A rack guide manufacturing method for manufacturing a rack guide for a rack and pinion steering device, to be received by a rack guide base member, said rack guide comprising: an abutment portion to which a rack bar is to be abutted; and a recessed portion to be spaced away from said rack bar, said abutment portion being capable of supporting said rack bar in such a manner that a pinion and said rack bar are meshed with each other, wherein, in a cross sectional view along a central line of the rack guide, processing is made to a work piece to have a predetermined thickness in such a manner that a thickness dimension of said recessed portion is different from that of said abutment portion, the abutment surface and an abutment portion outer surface to face the rack guide base member have a common center of curvature and each of the abutment surface and the abutment portion outer surface has a single curvature of radius. 12. A rack guide manufacturing method according to claim 11 , wherein a portion of said work piece becoming the abutment surface is formed from a resin, a porous metal or a sintered alloy. 13. A rack guide manufacturing method according to claim 12 , wherein processing in which said work piece is made to have said predetermined thickness is performed by pressing a portion of said work piece becoming said recessed portion. 14. A rack guide manufacturing method according to claim 13 , wherein bending is performed in such a manner that an outer surface of said rack guide, so as to be abuttable to said rack guide base member, has a single curvature radius, or a single inclination at each of a right side and a left side with respect to the central line. 15. A rack guide manufacturing method according to claim 12 , wherein bending is performed in such a manner that an outer surface of said rack guide, so as to be abuttable to said rack guide base member, has a single curvature radius, or a single inclination at each of a right side and a left side with respect to the central line. 16. A rack guide manufacturing method according to claim 11 , wherein bending is performed in such a manner that an outer surface of said rack guide, so as to be abuttable to said rack guide base member, has a single curvature radius, or a single inclination at each of a right side and a left side with respect to the central line. 17. A rack guide for a rack and pinion steering device, to be received by a rack guide base member, said rack guide being capable of supporting a rack bar in such a manner that a pinion and said rack bar are meshed with each other, said rack guide comprising: an abutment portion having an abutment surface to which said rack bar is to be slidably abutted; and a recessed portion, which is continued to said abutment portion, to be spaced from said rack bar, wherein, in a cross sectional view along a central line of the rack guide, a thickness dimension of said recessed portion is different from that of said abutment portion, the abutment surface and an abutment portion outer surface to face the rack guide base member have a common center of curvature and each of the abutment surface and the abutment portion outer surface has a single curvature of radius. 18. A rack guide for a rack and pinion steering device, according to claim 17 , wherein said thickness dimension of said recessed portion becomes gradually decreasing as the recessed portion becomes away from said abutment portion. 19. A rack guide for a rack and pinion steering device, according to claim 18 , wherein an abutment surface of said abutment portion abuttable to said rack bar is provided with a surface constituted by a resin, a porous metal or a sintered alloy. 20. A rack guide for a rack and pinion steering device, according to claim 19 , wherein an outer surface of said rack guide abuttable to said guide base member has a single curvature radius, or a single inclination at each of a right side and a left side with respect to the central line. 21. A rack guide for a rack and pinion steering device, according to claim 18 , wherein an outer surface of said rack guide abuttable to said guide base member has a single curvature radius, or a single inclination at each of a right side and a left side with respect to the central line. 22. A rack guide for a rack and pinion steering device, according to claim 17 , wherein the abutment surface is constituted by a resin, a porous metal or a sintered alloy. 23. A rack guide for a rack and pinion steering device, according to claim 22 , wherein an outer surface of said rack guide abuttable to said guide base mem