JP2007170626A - Sealing device for rolling bearing - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sealing device for a rolling bearing capable of making contact pressure with a bearing ring a proper value in a condition of at least either one of a low temperature condition and a high temperature condition. <P>SOLUTION: A seal lip part 17 sliding on an inner ring 2 is composed of a first part 20 and a second part 21 having a coefficient of linear expansion larger than that of the first part 20. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a rolling bearing sealing device.

  Conventionally, as a seal device for a rolling bearing, a seal lip portion made of a single elastic material is fixed to a core metal portion, and the seal lip portion is slid against a side surface of an annular groove formed in a race ring. In some cases, the raceway surface of the raceway is sealed from the outside (for example, Japanese Patent Laying-Open No. 2005-233309 (Patent Document 1)).

  However, in the rolling bearing seal device, the contact pressure on the side surface of the seal lip portion becomes excessive at low temperatures due to the seal lip portion becoming hard and warping toward the side surface during low temperature use. There is a problem that the rotational torque becomes large, and there is a problem that the fuel consumption of an automobile or the like having this rolling bearing seal device is deteriorated at low temperatures.

Conventionally, in a rolling bearing sealing device, when the lubricating oil sealed in the rolling bearing is prevented from flowing to the outside, the viscosity of the lubricating oil decreases under high temperature conditions, and the lubricating oil There is a problem that the fluidity of the oil becomes high, and the lubricating oil in the bearing whose fluidity becomes high easily passes through the rolling bearing seal device and easily leaks out of the bearing.
Japanese Patent Laying-Open No. 2005-233309 (FIG. 1)

  Therefore, an object of the present invention is to provide a rolling bearing seal device in which the contact pressure with the raceway is an appropriate value in at least one of a low temperature state and a high temperature state.

In order to solve the above-mentioned problem, a rolling bearing seal device of the present invention comprises:
A rolling bearing sealing device in which one end is fixed to the first bearing ring of the rolling bearing and the other end slides on the second bearing ring of the rolling bearing,
A cored bar,
A seal lip portion that is attached to the core metal portion and slides on the second raceway ring;
The seal lip portion has a first portion and a second portion having a linear expansion coefficient larger than that of the first portion.

  Note that the phrase “one end is fixed to the first bearing ring of the rolling bearing” includes a case where one end is fixed to a member fixed to the first bearing ring. Further, the phrase “the other end slides on the second bearing ring of the rolling bearing” includes a case where the other end slides on a member fixed to the second bearing ring.

  According to the present invention, the seal lip portion includes the first portion and the second portion having a linear expansion coefficient larger than that of the first portion. Due to the difference in coefficient of linear expansion between the two parts, the seal lip part warps in the direction from the first part toward the second part in the low temperature state, while the seal lip part is bent in the high temperature state. It will warp in the direction from the second part toward the first part. Therefore, the seal lip portion can be freely bent in at least one of the low temperature state and the high temperature state by appropriately adjusting the arrangement region of the first part and the arrangement region of the second part in the seal lip part. Therefore, in any shape of the seal lip portion, the contact pressure of the seal lip portion with respect to the raceway ring can be made appropriate in at least one of the low temperature state and the high temperature state.

  Further, in the rolling bearing seal device according to one embodiment, the first portion is a portion inside the axial direction of the second bearing ring of the seal lip portion, and the second portion is a portion of the seal lip portion. This is the outer portion in the axial direction.

  According to the embodiment, the first portion is a portion inside the axial direction of the seal lip portion, and the second portion is a portion outside the axial direction of the seal lip portion. In a low temperature state, the seal lip portion warps outward in the axial direction, while in a high temperature state, the seal lip warps inward in the axial direction. Therefore, when the seal lip portion slides on the peripheral surface of the second race ring or when it slides on the inner end surface in the axial direction of the annular groove formed on the peripheral surface of the second race ring. The contact pressure between the seal lip and the bearing ring can be reduced in a low temperature state where the viscosity of the lubricating oil is small and a large contact pressure between the seal lip and the bearing ring is not required. The rotational torque can be reduced. Therefore, in a low temperature state, the fuel consumption of an automobile or the like having this rolling bearing seal device can be improved. Conversely, in a high temperature state, the contact pressure between the seal lip portion and the race can be increased, so the viscosity of the lubricating oil decreases due to an increase in the temperature of the lubricating oil, and the flow of the lubricating oil Even if the performance increases, it is possible to prevent the lubricating oil from leaking out of the bearing.

  Further, in the rolling bearing seal device according to one embodiment, the first portion is a portion of the seal lip portion outside in the axial direction of the second bearing ring, and the second portion is formed of the seal lip portion. This is the inner part in the axial direction.

  According to the embodiment, the first portion is an outer portion of the seal lip portion in the axial direction, and the second portion is an inner portion of the seal lip portion in the axial direction. In a low temperature state, the seal lip portion warps inward in the axial direction, while in a high temperature state, the seal lip warps outward in the axial direction. Therefore, when the rotational speed of the bearing increases at high temperatures, the contact pressure between the seal lip portion and the bearing ring can be reduced at high temperatures, so that wear of the seal lip portion can be suppressed, and the seal lip portion The lifetime can be extended.

  According to the seal lip portion for a rolling bearing of the present invention, at least one of the low temperature state and the high temperature state can be obtained by appropriately adjusting the arrangement region of the first portion and the arrangement region of the second portion in the seal lip portion. In any of the above, the seal lip portion can be freely warped so that the contact pressure of the seal lip portion with respect to the raceway ring is appropriate in any shape of the seal lip portion in at least one of a low temperature state and a high temperature state. can do.

  Hereinafter, the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a sectional view in the axial direction of a ball bearing including a rolling bearing seal device 4 according to a first embodiment of the present invention.

  The ball bearing includes an outer ring 1 as a first bearing ring, an inner ring 2 as a second bearing ring, a ball 3, and a rolling bearing sealing device (hereinafter referred to as a sealing device) 4.

  The outer ring 1 has a raceway groove 11 on the inner circumferential surface and an annular seal mounting groove 12 on the outer side in the axial direction than the raceway groove 11 on the inner circumferential surface, while the inner ring 2 has an outer circumferential surface. Has a raceway groove 13. A plurality of the balls 3 are arranged between the raceway groove 11 of the outer ring 1 and the raceway groove 13 of the inner ring 2 while being held by the cage 5 with a certain interval in the circumferential direction. Grease as a lubricant is enclosed between the outer ring 1 and the inner ring 2.

  The sealing device 4 seals the raceway grooves 11 and 13 of the outer ring 1 and the inner ring 2 and the balls 3 to the outside to prevent grease from leaking out of the bearing. The sealing device 4 has an outer end in the radial direction (more precisely, the radial direction of the outer ring 1) fixed to the seal mounting groove 12 of the outer ring 1 and an inner end in the radial direction. The inner ring 2 slides.

  The sealing device 4 includes a cored bar part 15 extending in a substantially radial direction and an elastic part 16 attached to the cored bar part 15 so as to cover the surface of the cored bar part 15. The radially inner end of the elastic portion 16 is a seal lip portion 17. The seal lip portion 17 includes an attachment portion and a main body portion. The attachment portion is attached to an inner end portion in the radial direction of the cored bar portion 15 and extends substantially inward in the radial direction. The main body portion is continuous with the mounting portion and has an inclined tongue shape in a cross section and protrudes inward in the axial direction. The main body portion of the seal lip portion 17 slides on the inner end surface in the axial direction of the annular groove formed on the outer peripheral surface of the inner ring 2 and forms a sealing surface of the seal. .

The seal lip portion 17 includes a first portion 20 including an inner surface in the axial direction and a second portion 21 including an outer surface in the axial direction. The first portion 20 slides on the end surface of the inner ring 2. The linear expansion coefficient of the first portion 20 is smaller than the linear expansion coefficient of the second portion 21. Specifically, the first portion 20 is made of a fluoro rubber material having a linear expansion coefficient of 0.1 to 1 [10 ⁻⁵ / ° C.], and the second portion 21 has a linear expansion coefficient of 2.5 to 2.5. It is made of 4.0 [10 ⁻⁵ / ° C.] silicon rubber material. The first portion 20 is fixed to the core metal portion 15 with an adhesive. On the other hand, the second portion 21 is fixed to the outer surface in the axial direction of the first portion 20 and the outer surface in the axial direction of the core metal portion 15 with an adhesive. In addition, as a method of forming the elastic portion, after molding one of the first portion and the second portion, the other of the first portion and the second portion in one of the first portion and the second portion is changed. There is a method in which an adhesive is applied to the surface portion to be fixed, and the other of the first portion and the second portion is molded.

  2 is a partial cross-sectional view in the axial direction (more precisely, the axial direction of the inner ring 2) showing the warping of the sealing device 4 in a low temperature state, and FIG. 3 is a warping of the sealing device 4 in a high temperature state. It is a fragmentary sectional view of the axial direction which shows.

  As described above, in the sealing device 4 of the first embodiment, the linear expansion coefficient of the first inner portion 20 in the axial direction of the seal lip portion 17 is the second outer portion in the axial direction of the seal lip portion 17. It is smaller than the linear expansion coefficient of 21. For this reason, in the low temperature state, the degree of contraction of the second portion 21 is larger than the degree of contraction of the first portion 20, and the seal lip portion 17 is as shown by the arrow a as shown in FIG. Moreover, it will warp outward in the axial direction. Therefore, the contact pressure of the seal lip portion 17 is lower in the low temperature state than in the normal temperature state. On the other hand, in the high temperature state, the degree of extension of the second portion 21 is greater than the degree of extension of the first portion 20, and as shown in FIG. It will warp inward in the axial direction. Therefore, the contact pressure of the seal lip portion 17 is increased in the high temperature state as compared with the normal temperature state.

  According to the sealing device 4 of the first embodiment, the first portion 20 including the inner surface in the axial direction of the seal lip portion 17 and the second portion 21 including the outer surface in the axial direction of the seal lip portion 17; Therefore, in the low temperature state, the seal lip portion 17 warps outward in the axial direction, while in the high temperature state, the seal lip portion 17 warps inward in the axial direction. Therefore, the contact pressure between the seal lip 17 and the inner ring 2 can be reduced in a low temperature state where the lubricant has a low viscosity and a large contact pressure between the seal lip 17 and the inner ring 2 is not required. Rotational torque resulting from can be reduced. Therefore, in a low temperature state, the fuel consumption of an automobile or the like having this sealing device 4 can be improved. Conversely, the contact pressure between the seal lip portion 17 and the inner ring 2 can be increased at a high temperature, so that the viscosity of the lubricant decreases due to an increase in the temperature of the lubricant at a high temperature. Even if the fluidity of the lubricant increases, the lubricant can be prevented from leaking out of the bearing.

  In the sealing device 4 of the first embodiment, the seal lip 17 slides on the inner end surface in the axial direction of the annular groove formed on the outer peripheral surface of the inner ring 2. In the present invention, as shown in FIG. 4, the first portion 50 is located inward in the axial direction and is made of a fluoro rubber material, and the second portion 51 is located in the axial direction and is made of silicon rubber. The seal lip portion 47 may be configured to slide on the outer peripheral surface on the outer side in the axial direction than the raceway groove 43 of the inner ring 32.

Moreover, in the sealing device 4 of the first embodiment, the first portion 20 having a small linear expansion coefficient is a fluororubber material (linear expansion coefficient 0.1 to 1 [10 ⁻⁵ / ° C.]) and the linear expansion coefficient. The second portion 21 having a large linearity was a silicon rubber material (linear expansion coefficient 2.5 to 4.0 [10 ⁻⁵ / ° C.]). In the present invention, the first portion having a small linear expansion coefficient was a fluororubber material. In addition, the second portion having a large linear expansion coefficient may be a nitrile rubber material (linear expansion coefficient 2.2 to 2.4 [10 ⁻⁵ / ° C.]). Further, the first portion having a small linear expansion coefficient may be a nitrile rubber material, and the second portion having a large linear expansion coefficient may be a silicon rubber material.

  Further, in the sealing device 4 of the first embodiment, the first portion 20 having a small linear expansion coefficient is disposed inward in the axial direction of the seal lip portion 17, and the second portion 21 having a large linear expansion coefficient is provided. Although the seal lip portion 17 is disposed outward in the axial direction, in a system in which the rotational speed is high in a high temperature state, the first portion having a small linear expansion coefficient is disposed outward in the axial direction of the seal lip portion, and The second portion having a large linear expansion coefficient may be disposed inward in the axial direction of the seal lip portion. If it does in this way, since the contact pressure with respect to the raceway of a seal lip part in a high temperature state can be made small, wear of a seal lip part can be controlled.

  In the sealing device 4 of the first embodiment, the first track ring is the outer ring 1 and the second track ring is the inner ring 2. In the present invention, the first track ring is the inner ring, The second race may be an outer ring.

  Further, the sealing device 4 of the first embodiment is configured to seal between the outer ring and the inner ring of the ball bearing, but the sealing device of the present invention is a roller bearing (cylindrical roller bearing, tapered roller bearing, It is also possible to seal between the outer ring and the inner ring of a rolling bearing other than a ball bearing such as a needle bearing.

  FIG. 5 is an axial cross-sectional view showing a rolling bearing sealing device (hereinafter referred to as a sealing device) 74 according to the second embodiment.

  In FIG. 5, 71 is an outer ring of a rolling bearing (for example, a ball bearing or a roller bearing), and 72 is an inner ring of the rolling bearing. The sealing device 74 of the second embodiment is different from the sealing device 4 of the first embodiment in that it forms a so-called pack seal in combination with the slinger 76. In the sealing device 74 of the second embodiment, the description of the operational effects and modifications common to the sealing device 4 of the first embodiment will be omitted.

  The sealing device 74 of the second embodiment has a cored bar part 75 and an elastic part 77. The cored bar 75 has a substantially L-shaped cross section (in the half sectional view in the axial direction), is attached to the inner peripheral surface of the outer ring 71, and is connected to the mounting part. It consists of an extending part extending inward in the radial direction. Further, the slinger 76 has an L-shaped cross section (in the half sectional view in the axial direction), and is attached to the outer peripheral surface of the inner ring 72 and is connected to the mounting portion, and is substantially in the radial direction. It consists of an extending part that extends outward. The attachment part of the cored bar part 75 and the attachment part of the slinger 76 are substantially opposed to each other in the radial direction, and the extension part of the cored bar part 75 and the extension part of the slinger 76 are substantially opposed in the axial direction. Yes.

  The elastic part 77 is fixed to the inner surface in the radial direction of the L-shaped cross section of the cored bar part 75 with an adhesive. The elastic portion 77 is a seal lip portion that slides with respect to the slinger 76 fixed to the outer peripheral surface of the inner ring 72. The elastic portion 77 includes a first portion 80 made of a fluoro rubber material positioned inward in the radial direction and a second portion 81 made of nitrile rubber material positioned outward in the radial direction. The linear expansion coefficient of the first portion 80 is smaller than the linear expansion coefficient of the second portion 81. From this, the contact pressure of the elastic portion 77 against the slinger 76 can be reduced at a low temperature and higher at a high temperature than at a normal temperature.

  When the seal lip portion has the first portion and the second portion having a linear expansion coefficient larger than the linear expansion coefficient of the first portion as in the present invention, the first portion and the second portion In the low temperature state, the seal lip portion warps in the direction from the first portion toward the second portion, while in the high temperature state, the seal lip portion changes from the second portion to the second portion. It will warp in the direction toward one part. Therefore, in the rolling bearing seal device of the present invention, for example, in the first embodiment, the first portion 20 having a low linear expansion coefficient is disposed inward in the axial direction of the seal lip portion 17, and the linear expansion coefficient is In the second embodiment, the first portion 80 having a low coefficient of linear expansion is arranged inward in the radial direction of the seal lip portion so that the high second portion 21 is disposed outward in the axial direction of the seal lip portion 17. The arrangement of the first part and the arrangement of the second part in the seal lip is appropriately adjusted so that the second part 81 having a high linear expansion coefficient is arranged outward in the radial direction of the seal lip. It is possible to freely warp the seal lip portion in at least one of the low temperature state and the high temperature state. Therefore, in the rolling bearing sealing device of the present invention, the seal lip portion slides on the raceway ring in at least one of the low temperature state and the high temperature state, regardless of the shape of the seal lip portion. The contact pressure can be made appropriate.

  Needless to say, the seal lip portion may be composed of three or more portions having different linear expansion coefficients.

It is sectional drawing of the axial direction of the ball bearing containing the sealing apparatus for rolling bearings of 1st Embodiment of this invention. It is an axial fragmentary sectional view which shows the curvature of the sealing apparatus for rolling bearings of 1st Embodiment in a low temperature state. It is a fragmentary sectional view of the axial direction which shows the curvature of the sealing device for rolling bearings of 1st Embodiment in a high temperature state. It is a fragmentary sectional view of the sealing device for rolling bearings of the modification of 1st Embodiment. It is sectional drawing of the axial direction which shows the sealing apparatus for rolling bearings of 2nd Embodiment.

Explanation of symbols

1,71 Outer ring 2,32,72 Inner ring 3 Ball 4,74 Seal device 15,75 Core metal part 16,77 Elastic part 17,47 Seal lip part 20,50,80 First part 21,51,81 Second part

Claims (3)

A rolling bearing sealing device in which one end is fixed to the first bearing ring of the rolling bearing and the other end slides on the second bearing ring of the rolling bearing,
A cored bar,
A seal lip portion that is attached to the core metal portion and slides on the second raceway ring;
The seal lip portion has a first portion and a second portion having a linear expansion coefficient larger than the linear expansion coefficient of the first portion. The rolling bearing sealing device according to claim 1,
The first part is an inner part of the seal lip part in the axial direction of the second bearing ring, and the second part is an outer part of the seal lip part in the axial direction. A rolling bearing seal device. The rolling bearing sealing device according to claim 1,
The first portion is a portion of the seal lip portion outside in the axial direction of the second race, and the second portion is a portion of the seal lip portion inside in the axial direction. A rolling bearing seal device.

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