TH29683B - Hydrodynamic bearing device - Google Patents

Abstract

DC60 (30/06/46) Hydrodynamic bearing equipment at reduced cost is provided. Formed by forging, the cup-shaped axial load assembly is positioned in the bottom of the housing and by bringing this axial load assembly into contact with the surface. At the lower end of the bearing sleeve, the width of the axial load bearing gap within the bearing section is adjusted. Take the first and second axial force to the specified value. Hydrodynamic bearing equipment at reduced cost will be provided. The case with the bearing sleeve encased in it is forged by forging. The cup-shaped axial load assembly is positioned in the bottom of the housing. and by introducing this axial load assembly into contact with the surface at the bottom end of the bearing sleeve. This will adjust the width of the axial load bearing gap within the first and second axial load bearing sections to the specified values.

Claims (8)

1. A hydrodynamic bearing device consisting of an axial assembly, a bearing sleeve, a housing with a bearing sleeve that extends to its inner circumference. Radial bearing gap It is formed between the outer perimeter of the axial assembly and the inner periphery of the bearing sleeve and the sealing method with a sealing gap with a lubricant surface. In there for sealing one end of the housing Where, with the relative rotation of the assembly Axial and casing bearing Will create pressure in the radial bearing gap as a result of Fluid dynamic pressure Which is the support for the axial assembly and the bearing sleeve in Non-contact state Where the housing will be a product that has been extruded casting 2. The hydrodynamic bearing device according to claim 1, which is also included. The axial load bearing surface, opposite of the end surface on the side, not sealed of The bearing casing crosses through the space between them. And the surrounding protrusion on the axial assembly Which has been assigned a position within the space Where the bearing gap accepts the first axial force. Are formed between the exposed end surfaces on the side, which are not sealed of the bearing sleeve and Surface at one end of the surface of the periphery And the second axial load bearing gap Are formed between opposite end surfaces of the periphery, and Axial load bearing surface 3. Hydrodynamic bearing device according to claim 2, where the bearing surface is The axial force is formed on the axial load-bearing assembly which is in contact with the end surface. On the uncovered side of the bearing casing 4. Hydrodynamic bearing device according to claim 2 where the bearing surface is The axial bearing will be formed in the same section as the housing. 5. Hydrodynamic bearing device according to claim 4, where the step part will be Provided in the housing And the step part is soldered to the unsealed side end surface of the bearing sleeve 6. Hydrodynamic bearing device according to claim 2, where the bearing surface is Axial forces are formed on an axial load assembly made up of Sintered metal, oil immersed 7. Hydrodynamic bearing device according to claim 1 or 2, where the housing will be Formed by plastic deformation, expose at least a portion of the metal tube material. 8. Hydrodynamic bearing device according to claim 3, where the housing will be formed. By changing the shape of the plastic part to at least the material of the metal tube 9. Hydrodynamic bearing device according to claim 8, where the interlocking part. Which changes its shape towards the plastic, which faces inward along the radial line, so that the bar is provided On the side, which is not covered by the cover of the case And the interface will be soldered to the assembly. Acquire axial load 1 0. Hydrodynamic bearing device in accordance with Clause 1 to Clause 3. Where the inner periphery of the casing and the periphery of the bearing casing are partially exposed 1 1. Hydrodynamic bearing device according to claim 10, where the section shape Block of The outer perimeter of the bearing casing and the inner perimeter of either case It will be polygonal or waveform 1 2. Hydrodynamic bearing device in accordance with claim 10, where the block bearing will be Assembled in a compact design in the inner part of the housing And narrow the inner radius of The bearing sleeve according to the compressive assembly shall not be greater than 2 μm 1. 3. Hydrodynamic bearing equipment in accordance with Clause 1 to Clause 3. Where the bearing sleeve is compressed into the inner periphery of the housing and the narrowing in the inner ring of the bearing casing after compression assembly is no more than 2 μm 1. 4. Hydrodynamic bearing equipment in accordance with Clause 1 to Clause 6, any one Where the housing is formed by drawing the sheet metal 1 5. Hydrodynamic bearing device according to claim 1, where the way of sealing You will be able to love the bar formed from the assembly for sealing ring 1. 6. The hydrodynamic bearing device in accordance with claim 15, where the interface Which shift its shape towards the plastic, which faces inward along the radial, is provided On the sealed side of the housing And the interface will be soldered to the assembly. For sealing 1 7.The hydrodynamic bearing device in accordance with claim 1, where the way of sealing It is formed by narrowing the diameter of the case 1. 8. The hydrodynamic bearing device in accordance with claim 17, where the interface Which transforms to a plastic orientation that faces inward along the radius will be provided On the sealed side of the housing And the interface to solder with the bearing casing