The porous oil-impregnated bearing 1 comprises a bearing body 1a made of a porous material, and oil retained in the pores of the bearing body 1a by impregnation with lubricating oil or lubricating grease. The inner peripheral surface of the bearing body 1a is formed with a bearing surface 1b oppose
The porous oil-impregnated bearing 1 comprises a bearing body 1a made of a porous material, and oil retained in the pores of the bearing body 1a by impregnation with lubricating oil or lubricating grease. The inner peripheral surface of the bearing body 1a is formed with a bearing surface 1b opposed to an outer peripheral surface of a shaft to be supported, with a bearing clearance defined therebetween. The bearing surface 1b has a first region m1 in which a plurality of hydrodynamic pressure generating grooves 1c inclined in one direction with respect to the axial direction are circumferentially disposed, a second region m2 which is axially spaced from said first region m1 and in which a plurality of hydrodynamic pressure generating grooves 1c inclined in the other direction with respect to the axial direction are circumferentially disposed, and an annular smooth region n disposed between the first and second regions m1 and m2.
대표청구항▼
What is claimed is: 1. A method of producing a hydrodynamic type porous oil-impregnated bearing comprising a porous bearing body being formed with bearing surface on an inner peripheral surface thereof, said bearing surface having inclined hydrodynamic pressure generating grooves, and oil retained
What is claimed is: 1. A method of producing a hydrodynamic type porous oil-impregnated bearing comprising a porous bearing body being formed with bearing surface on an inner peripheral surface thereof, said bearing surface having inclined hydrodynamic pressure generating grooves, and oil retained in pores of said bearing body by impregnation of lubricating oil or lubricating grease, said method comprising the steps of: inserting a forming pattern in an inner peripheral surface of a cylindrical porous blank, said forming pattern having a first forming portion for forming a region of said hydrodynamic pressure generating grooves and a second forming portion for forming the other region in said bearing surface, press fitting said porous blank with said forming pattern inserted therein into a die to apply a compacting pressure to said porous blank wherein the inner peripheral surface of said porous blank is pressed against said forming pattern, thereby simultaneously forming the region of said hydrodynamic pressure generating grooves and the other region in said bearing surface on the inner peripheral surface of said porous blank, and after forming said bearing surface, removing said compacting pressure so as to utilize the spring-back of said porous blank in releasing said forming pattern from the inner peripheral surface of said porous blank. 2. A method of producing a hydrodynamic type porous oil-impregnated bearing as set forth in claim 1, wherein said bearing surface has a first region in which a plurality of hydrodynamic pressure generating grooves inclined in one direction with respect to the axial direction are circumferentially disposed, a second region which is axially spaced from the first region and in which a plurality of hydrodynamic pressure generating grooves inclined in the other direction with respect to the axial direction are circumferentially disposed, and an annular smooth region positioned between the first and second regions. 3. A method of producing a hydrodynamic type porous oil-impregnated bearing as set forth in claim 1, wherein said bearing surface has a first region in which a plurality of hydrodynamic pressure generating grooves inclined in one direction with respect to the axial direction are circumferentially disposed, a second region which is axially continuous to the first region and in which a plurality of hydrodynamic pressure generating grooves inclined in the other direction with respect to the axial direction are circumferentially disposed. 4. A method of producing a hydrodynamic type porous oil-impregnated bearing as set forth in claim 1, wherein said porous blank is formed of a sintered metal. 5. A method of producing a hydrodynamic type porous oil-impregnated bearing as set forth in claim 4, wherein said sintered metal contains copper or iron, or both as a main component. 6. A method of producing a hydrodynamic porous oil-impregnated bearing comprising a porous bearing body being formed with a bearing surface on an inner peripheral surface thereof, said bearing surface having a plurality of inclined hydrodynamic pressure generating grooves, and oil retained in pores of said bearing body by impregnation of lubricating oil or lubricating grease, said method comprising the steps of: inserting a forming pattern in an inner peripheral surface of a cylindrical porous blank, said porous blank being made of a sintered metal, said forming pattern having a forming portion for forming said hydrodynamic pressure generating grooves, said forming portion being composed of a plurality of convex portions each of which agrees with each of said hydrodynamic pressure generating grooves, press fitting said porous blank with said forming pattern inserted therein into a die to apply a compacting pressure to said porous blank wherein the inner peripheral surface of said porous blank is pressed against said forming portion of said forming pattern, thereby forming said hydrodynamic pressure generating grooves in the inner peripheral surface of said porous blank, and after forming said hydrodynamic pressure generating grooves, removing said compacting pressure so as to utilize the spring-back of said porous blank in releasing said forming pattern from the inner peripheral surface of said porous blank. 7. A method of producing a hydrodynamic type porous oil-impregnated bearing as set forth in claim 6, wherein said sintered metal contains copper or iron, or both as a main component. 8. A method of producing a porous bearing body of a hydrodynamic type porous oil-impregnated bearing, said porous bearing body being formed with bearing surface on an inner peripheral surface thereof, said bearing surface having a plurality of inclined hydrodynamic pressure generating grooves, said method comprising the steps of: inserting a forming pattern in an inner peripheral surface of a cylindrical porous blank, said porous blank being made of a sintered metal, said forming pattern having a forming portion for forming said hydrodynamic pressure generating grooves, said forming portion being composed of a plurality of convex portions each of which agrees with each of said hydrodynamic press generating grooves, press fitting said porous blank with said forming pattern inserted therein into a die to supply a compacting pressure to said porous blank wherein the inner peripheral surface of said porous blank is pressed against said forming portion of said forming pattern, thereby forming said hydrodynamic pressure generating grooves in the inner peripheral surface of said porous blank, and after forming said hydrodynamic pressure generating grooves, removing said compacting pressure so as to utilize the spring-back of said porous blank in releasing said forming pattern from the inner peripheral surface of said porous blank. 9. A method of producing a porous bearing body of a hydrodynamic type porous oil-impregnated bearing as set forth in claim 8, wherein said sintered metal contains copper or iron, or both as a main component. 10. A method of producing a hydrodynamic porous oil-impregnated bearing, a porous bearing body of which is formed with bearing surface on an inner peripheral surface thereof, said bearing surface having inclined hydrodynamic pressure generating grooves, said method comprising the steps of: inserting a forming pattern in an inner peripheral surface of a porous blank, said forming pattern having a forming portion for forming said hydrodynamic pressure generating grooves, said forming portion comprising a plurality of convex portions, each of which agrees with each of said hydrodynamic pressure generating grooves, press fitting said porous blank with said forming pattern inserted therein into a die to apply a compacting pressure to said porous blank wherein said inner peripheral surface of said porous blank is pressed against said forming pattern, thereby making plastic deformation of said inner peripheral surface of said porous blank occur to form said hydrodynamic pressure generating grooves, and after forming said hydrodynamic pressure generating grooves, removing said compacting pressure so as to utilize the spring-back of said porous blank in releasing said forming pattern from the inner peripheral surface of said porous blank. 11. A method of producing a hydrodynamic porous oil-impregnated bearing as set forth in claim 10, wherein said porous blank is formed of a sintered metal. 12. A method of producing a hydrodynamic porous oil-impregnated bearing as set forth in claim 11, wherein said sintered metal contains copper or iron, or both as a main component.
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