ROLLING BEARING

Abstract

An object of the present invention is to provide a rolling bearing which makes use of a porous rolling element and a selected kind of lubricant to impregnate with; is usable in various conditions; does not discharge foreign objects; and features low dust generation and long life. A rolling bearing includes an outer ring 2; an inner ring 1; and a plurality of rolling elements 3 assembled between mutually opposed outer ring track surface 2a and inner ring track surface 1a. The plurality of rolling elements 3 is provided by a combination of a porous rolling element 3a impregnated with a lubricant and a non-porous rolling element 3b.

Claims

1. A rolling bearing comprising: an outer ring (2); an inner ring (1); and a plurality of rolling elements (3) assembled between an outer ring track surface (2a) and an inner ring track surface (1a) opposed to each other; characterized in that the plurality of rolling elements (3) is provided by a combination of a porous rolling element (3a) impregnated with a lubricant oil and a non-porous rolling element (3b).

2. The rolling bearing according to claim 1, wherein the porous rolling element (3a) has a diameter smaller than that of the non-porous rolling element (3b).

3. The rolling bearing according to claim 2, wherein the diameter of the porous rolling element (3a), when compared with the diameter of the non-porous rolling element (3b) as being 1, is 0.80 through 0.99.

4. The rolling bearing according to claim 1, wherein a total number of the porous rolling elements (3a) is equal to or smaller than a half of a total number of the rolling element (3).

5. The rolling bearing according to claim 1, wherein the porous rolling elements (3a) are not disposed adjacently to each other.

6. The rolling bearing according to claim 1, wherein the porous rolling elements (3a) has a degree of porosity not smaller than 30 percent.

7. The rolling bearing according to claim 1, wherein the lubricant oil impregnated in the porous rolling element (3a) is selected from a polyalphaolefin oil, a fluorine oil, a phenyl ether oil, an ester oil, an ionic liquid, and a multialkylated cyclopentane lubricant oil.

8. The rolling bearing according to claim 7, for use in an application requiring electrical conductivity/continuity, wherein the lubricant oil impregnated in the porous rolling element (3a) is provided by an ionic liquid.

9. The rolling bearing according to claim 7, for use in an anti-chemical attack application, wherein the lubricant oil impregnated in the porous rolling element (3a) is provided by a polyalphaolefin oil.

10. The rolling bearing according to claim 7, for use in a vacuum and low dust-generation application, wherein the lubricant oil impregnated in the porous rolling element (3a) is provided by a multialkylated cyclopentane lubricant oil.

11. The rolling bearing according to claim 7, for use in a high temperature and vacuum application, wherein the lubricant oil impregnated in the porous rolling element (3a) is provided by a fluorine oil.

12. The rolling bearing according to claim 7, for use in an anti-radioactive application, wherein the lubricant oil impregnated in the porous rolling element (3a) is provided by a phenyl ether oil.

13. The rolling bearing according to claim 7, for use in a room temperature and low-torque application, wherein the lubricant oil impregnated in the porous rolling element (3a) is provided by an ester oil.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0030] FIG. 1 is a side view of a rolling bearing according to an embodiment of the present invention.

[0031] FIG. 2 is a side view of a rolling bearing according to another embodiment of the present invention.

DESCRIPTION OF EMBODIMENTS

[0032] Hereinafter, description will be made for embodiments of the present invention, with reference to the attached drawings.

[0033] A rolling bearing according to an embodiment of the present invention shown in FIG. 1 includes an outer ring 2, an inner ring 1, a plurality of rolling elements 3 assembled between a track surface 2a provided on an inner circumferential surface provided on the outer ring 2 and a track surface 1a of an outer circumferential surface of the inner ring 1; and a retainer 4 to hold the plurality of rolling elements 3 equidistantly.

[0034] A quantity of the rolling elements 3 is eight; one of which is provided by a porous rolling element 3a impregnated with a lubricant oil while the others are provided by a non-porous rolling element 3b.

[0035] The rolling elements 3 may be provided by whichever of balls and rollers.

[0036] The porous rolling element 3a is most preferably made of a ceramics in view of heat resistance and strength, but copper-based and iron-based sintered metal, and other porous metal materials are also preferable. If the porous rolling element 3a is to be used in applications which require low dust generation, it is more preferable to use PTFE (polytetrafluoroethylene resin) as the material. When the porous rolling element 3a has depleted all the lubricant oil impregnated therewith, there could be a concern that the porous rolling element 3a wears at an increased rate and generate dust. However, PTFE serves as a solid lubricant by itself, so even after the porous rolling element 3a experiences surface wear, there is a transfer supply of the lubricant material, which will then stick onto the worn surface, and therefore it is expected that the arrangement will provide a further extended durability and low dust-generation characteristic. Since the porous rolling element 3a which is made of PTFE has superior in low dust-generation and outgas generation characteristics, it is applicable not only in atmospheric applications but also vacuum applications. Also, PTFE is a material whose melting point exceeds 300 degrees Celsius, and therefore applicable in high temperature conditions not higher than 300 degrees Celsius if combined with a compatible impregnated lubricant oil. Table 1 shows comparison between materials for the porous ball. It should be noted here that although Patent Literature 3 discloses that a plurality of rolling elements include one or more rolling elements which are formed of PTFE, that PTFE rolling elements are solid balls, and it is not possible to impregnate them with a lubricant oil.

TABLE-US-00001 TABLE 1 Low Dust- Generation Characteristic*.sup.1 Heat Tolerance after Impregnated Material of Porous (Usable Lubricant Oil*.sup.2 Outgas from Rolling Element Temperature) is Consumed Material*.sup.3 Resin PTFE ◯ ⊚ ◯ (Up to 300 deg. C.) PE Δ Δ Δ (Polyethylene) (Up to 90 deg. C.) Sintered Metal ⊚ Δ ◯ Porous Metal Ceramics ⊚ Δ ◯ *.sup.1A multialkylated cyclopentane lubricant oil was impregnated. *.sup.2To measure dust generation, a particle counter was used to count particles in 28.3 liters (1 cubic foot) of air every hour (in 5-hour period). Class means degrees of clean-room purification, indicating the number of particles within 28.3 liters (1 cubic foot) of air (USA Fed. Std. 209E). *.sup.3Outgas from the material was measured according to GC-MS. Legend ⊚: Excellent ◯: Good Δ: Usable

[0037] The number of the porous rolling element 3a should be one or more, but not more than half of the total number of the rolling element 3.

[0038] FIG. 2 shows an embodiment, in which porous rolling elements 3a account for a half of the total number of the rolling elements 3, namely, the embodiment uses four porous rolling elements 3a and four non-porous rolling elements 3b.

[0039] The non-porous rolling elements 3b which bear the load may be provided by solid balls and rollers, and these balls and rollers may be made of steel or ceramics.

[0040] Hereinafter, description will cover a evaluation experiment conducted with deep-groove ball bearings (diameter: 8×22×7, made of SUS440C) as test bearings. In this test, a rolling bearing according to the present invention (Invention) was compared with other rolling bearings (Comparative products 1 through 4).

TABLE-US-00002 TABLE 2 Comparative Comparative Invention Product 3 Product 4 One of the Comparative Greased bearing One of the rolling Product 2 for use in rolling elements is Comparative PTFE coating vacuum in elements is a Bearing a porous ball Product 1 provided which grease solid lubricant Construction/ impregnated No inside the is packed inside ball of tungsten Lubrication Method with lubricant*.sup.1 lubrication bearing the bearing disulfide Test 1 Rolling Torque Low Extremely Intermediate High Low Items Low 2 Durability ◯ X Δ ⊚ ◯ (Until Seizure) (Locked in 20 minutes) 3 Dust generation ◯ — ⊚ ◯~Δ*.sup.3 X measuring (Class 100) (Class 10 (Class 100 method to 100) to 1000) (Measured in atmosphere) *.sup.2 *.sup.1A multialkylated cyclopentane lubricant oil was impregnated. *.sup.2 To measure dust generation, a particle counter was used to count particles in 28.3 liters (1 cubic foot) of air every hour (in 5-hour period). Class means degrees of clean-room purification, indicating the number of particles within 28. 3 liters (1 cubic foot) of air (USA Fed. Std. 209E). *.sup.3Dust generation value varies from one grease brand to another. Legend ⊚: Excellent ◯: Good Δ: Usable X: Not good

[0041] The test conditions for each test item are shown in Table 3.

TABLE-US-00003 TABLE 3 Ambient Air Rotating Load (Atmospheric/Vacuum) Temperature Speed (Axial) Test 1 Rotation Atmosphere Room 200 min.sup.−1 29.4N Torque Temperature Test 2 Durability Vacuum (10.sup.−5 Pa) Room 200 min.sup.−1 29.4N Temperature Test 3 Dust Atmosphere Room 800 min.sup.−1 29.4N Generation Temperature

[0042] The present invention is not limited to any of the embodiments described thus far, and it is obvious that the invention may be modified in many other ways within the scope of the present invention. The scope of the present invention is defined by the CLAIMS and includes all equivalents thereto and any variations therein.

REFERENCE SIGNS LIST

[0043] 1: Inner ring [0044] 1a: Track surface [0045] 2: Outer ring [0046] 2a: Track surface [0047] 3: Rolling element [0048] 3a: Porous rolling element [0049] 3b: Non-porous rolling element [0050] 4: Retainer