RU2006126551A - AXIAL HYDRODYNAMIC BEARING SEGMENT OF THE SUBMERSIBLE PUMP UNIT FOR OIL PRODUCTION - Google Patents

Claims (24)

1. The thrust bearing segment of the axial hydrodynamic bearing of the submersible pump unit for oil production, including a contact element designed to interact with the fifth bearing, and a support element designed to mount the segment on the corresponding thrust bearing element and to ensure self-alignment of the segment relative to the bearing foot, characterized in that the contact and support elements are made of sintered porous metal powder material, the pores of which are filled with an impregnating material m having thermal conductivity, as well as ductility and / or elasticity greater than that of the sintered powder material, the contact and support elements are interconnected by means of an impregnating material, with the possibility of transferring force to the support element from the side of the contact element through the impregnating material, while at least a large part of the contact surfaces of the contact and support elements facing each other is located with a given gap relative to each other, and at least a large part of the of the space between these surfaces is filled with the impregnating material, the support member is made of a material having a high strength and / or hardness than the material of the contact element and / or the porosity of the sintered material of the support member is smaller than the porosity of the sintered material of the contact element. 2. The segment according to claim 1, characterized in that the contact and support elements are located one above the other, while the shape of the perimeter of the contact and support elements corresponds to the shape of the perimeter of the segment. 3. The segment according to claim 2, characterized in that an antifriction coating is formed on the free surface of the contact element opposite to the support element, and a protrusion is made on the free surface of the contact element opposite to the contact element, which is designed to install the segment with the possibility of swinging and self-installation relative to bearing heels. 4. The segment according to claim 3, characterized in that the supporting surface of the protrusion is a part of the side surface of the cylinder. 5. The segment according to claim 3, characterized in that the supporting surface of the protrusion is part of the base of the cylinder, or the side surface of the polyhedron, or the side face of the polyhedron. 6. The segment according to claim 2, characterized in that on the surface of the contact element facing the support element, at least one protrusion is made for placing the surfaces of these elements facing each other at a predetermined distance. 7. The segment according to claim 6, characterized in that the surface of the support element facing the contact element is made with at least one depression to accommodate part of the corresponding protrusion made on the surface of the contact element. 8. The segment according to claim 2, characterized in that at least one protrusion is made on the surface of the support element facing the contact element to place the surfaces of these elements facing each other at a predetermined distance. 9. The segment of claim 8, characterized in that the surface of the contact element facing the support element is made with at least one depression to accommodate part of the corresponding protrusion made on the surface of the support element. 10. The segment according to claim 1, characterized in that the contact element is made of powder steel. 11. The segment of claim 10, characterized in that the support element is made of chromium, or chromium-nickel, or chromium-nickel-molybdenum powder steel. 12. The segment of claim 10, characterized in that the support element is hardened by heat treatment 13. The segment according to claim 1, characterized in that the porosity of the sintered powder material of the support element ranges from 5 to 18%, and the porosity of the sintered powder material of the contact element ranges from 10 to 25%. 14. The segment according to claim 1, characterized in that the impregnating material is a dispersion hardened alloy based on copper and / or nickel. 15. The segment of claim 14, wherein the impregnating material is a glandular or manganese bronze. 16. The segment according to claim 1, characterized in that a layer of impregnating material is formed on at least part of the outer surfaces of the contact and support elements. 17. The segment according to claim 3, characterized in that the antifriction coating includes an outer layer of a polymer-based antifriction composite material and a porous layer formed by particles of metallic powder material that are baked to the outer surface of the contact element, while the porous layer is filled with said composite material . 18. The segment according to 17, characterized in that the metal powder material is a powder of tin or tin-zinc bronze. 19. The segment according to 17, characterized in that the composite material is based on polytetrafluoroethylene, or polyoxymethylene, or polyimide, or polyamidimide, or polybenzoimidosole, or polyphenyl sulfide, or polyether ether ketone. 20. The segment according to 17, characterized in that the composite material contains a wear-resistant and / or reinforcing and / or anti-friction filler. 21. The segment according to claim 20, characterized in that the wear-resistant filler is a fine powder of high-strength carbide, or nitride, or titanium carbonitride, or tungsten, or molybdenum, or silicon, or another suitable metal, or aluminum oxide or silicon powder, or another appropriate substance, or a mixture thereof. 22. The segment according to claim 20, characterized in that the reinforcing filler is a carbon fiber and / or glassy carbon and / or glass. 23. The segment according to claim 20, characterized in that the antifriction filler is a solid powder lubricant 24. The segment according to item 23, wherein the antifriction filler is a powder of molybdenum disulphide or dislenide, or tungsten, or titanium, or another corresponding metal, or a mixture thereof.