JPH0320175A - Sleeve-cum-slinger for oil seal and seal assembly thereof - Google Patents

Abstract

PURPOSE:To radiate heat surely as well as to prevent dust penetration by installing at least one section almost U-shaped curved part, being projected to the axial inside, in a slinger part, and making a peripheral edge of the slinger part so as to be situated in the yet more outside than an outermost part in the axial direction of an oil seal. CONSTITUTION:When a shaft 3 is rotated, a sleeve-cum-slinger 4 is also rotated as one body, sealing the inside and outside in the axial direction of the sleeve 4 by an oil seal 2 with a seal lip part 2a sliding on an outer circumference of the sleeve part 4. At this time, a sliding part of the lip part 2a generates some heat, but at this sleeve part 4, the heat is transferred to a slinger part 7 from the sleeve part 6, and further it has a curved part 7a and the surface area becomes larger, while the heat is efficiently radiated at a part of the slinger part 7 uncovered with rubber, so that there is no heating damage to the lip part 2a. In addition, since a peripheral edge 7b of the slinger part 7 is situated at the more outside than a flange part 2c at the outermost side of the seal 2, dust in hard to penetrate to the inside of this peripheral edge 7b.

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a sleeve with a slinger for an oil seal and its seal assembly, and is used in samurai for sealing parts such as differential parts of trucks. This invention relates to a sleeve with a slinger for an oil seal that can efficiently dissipate the heat generated between the oil seal and its seal assembly. [Prior art and the section to be solved! ! l) Generally,
The oil seal used in the trunk differential is designed so that the seal lip of the oil seal comes into direct sliding contact with the axle yoke. Therefore, there is a risk that the seal lip will be damaged when installing the oil seal on the differential gear, and if the surface roughness of the axle yoke on which the seal lip slides is not appropriate, the seal lip will suffer significant wear. It has drawbacks,
There is a need for a seal assembly for oil seals that prevents the seal lip from being damaged in order to prevent damage to the seal lip when the oil seal is installed and to protect the seal lip. As the seal assembly, one shown in FIG. 11, which is applied to a wheel hub that operates at low rotation speeds and low speeds, is known. That is, this seal assembly has an outer diameter that is equal to or smaller than the housing 9.
1 and has a seal lip portion 92a on the inner diameter side, and the oil seal 92 is attached to the outer peripheral surface.
A cylindrical sleeve part 96 on which rubber 95 is baked to a thickness that has a tightness margin with respect to the outer peripheral surface of the shaft 93 on the inner peripheral surface, and one end of this sleeve part 96 in the radial direction. A sleeve 94 with a slinger made of a thin metal plate having a slinger portion 97 extending outward and having rubber 97a baked on the axially outer side opposite to the side where the oil seal 92 is located; The sleeve 94 with the slinger and the oil seal 9 are attached.
2 and an annular member 9B made of a thin metal plate and having a substantially L-shaped cross section. In the seal assembly configured as described above, when the seal assembly is used by being attached to a shaft that operates at low rotation and low speed, such as a hub wheel, the seal lip portion 92a of the oil seal 92 is attached to the sleeve portion 96. Since the heat generated in the sleeve part 96 by sliding contact with the outer peripheral surface is not large, it is not a big problem, but when a seal assembly with this structure is installed on a shaft that rotates at high speed like the differential pinion part, , seal lip portion 92a of oil seal 92
When the seal slides on the outer peripheral surface of the sleeve portion 96, the heat generated at that time cannot be dissipated from the sleeve portion 96, and the seal lip portion 92a is abnormally heated together with the sleeve 96, resulting in damage to the seal lip portion 92a. It had some problems. On the other hand, it may be possible to improve heat dissipation by removing the rubber 97a on the axially outer side of the slinger portion 97 of the seal assembly, but in that case, the annular member 98 attached to the oil seal 92 may be removed. As shown in FIG. 12, dust easily enters the oil seal 92 side between the seal lip portion 9.2 and the slinger portion 97.
There was a problem in that it had an adverse effect on the sealing properties in a. The present invention solves the problems of the conventional ones as described above, and is capable of reliably dissipating the heat generated when the seal lip of the oil seal comes into sliding contact with the outer periphery of the sleeve. , it is possible to reliably prevent dust from entering the oil seal side, there is no need to worry about damage to the seal lip of the oil seal when it is installed on the shaft, and wear of the seal lip during sliding can be easily controlled. The purpose of this invention is to provide a sleeve with a slinger for an oil seal and its seal assembly. [Means for Solving the Problems] In order to achieve the above object, the sleeve with a slinger for an oil seal of the present invention is used together with an oil seal, and includes a cylindrical sleeve portion that rotates integrally with a shaft, and this sleeve portion. A sleeve with a slinger for an oil seal made of a thin metal plate, the sleeve having a slinger portion with one end extending radially outward, and a seal lip portion of the oil seal sliding on an outer peripheral surface of the sleeve portion, Rubber is baked onto the inner circumferential surface of the sleeve part to a thickness that has a tightening margin for the shaft, and the slinger part is exposed with no rubber coating, and has an inner surface in the axial direction on the side where the oil seal is located. The oil seal has at least one protruding curved portion having a generally U-shaped cross section, and has a structure in which the outer peripheral edge of the slinger portion is located further outside than the outermost outermost part of the oil seal in the axial direction. , a sleeve made of a cylindrical thin metal plate that is used together with an oil seal and rotates integrally with the shaft, and a slinger made of a thin metal plate that is a separate member from the sleeve and fixed to one end of the sleeve and extends radially outward. has
A sleeve with a slinger for an oil seal in which a seal lip portion of the oil seal slides on an outer circumferential surface of the sleeve, wherein the sleeve has rubber baked onto its inner circumferential surface to a thickness that has an interference with the shaft; The slinger has no rubber coating and is exposed to the oil. The slinger has at least one curved portion having a substantially U-shaped cross section that protrudes inward in the axial direction on the side where the seal is located, and the outer peripheral edge of the slinger is further outward than the outermost outermost part of the oil seal in the axial direction. Furthermore, the assembly of the sleeve with slinger for an oil seal of the present invention has an oil seal whose outer diameter side is fixed to the housing and whose inner diameter side has a seal lip portion, and a shaft and a shaft. It has a cylindrical sleeve part that rotates together and whose outer circumferential surface slides on the seal lip part, and a slinger part that extends one end of this sleeve part radially outward, and the sleeve part has a cylindrical sleeve part on its inner circumferential surface. Rubber is baked onto the shaft to a thickness that provides a tightening margin, and the slinger portion is exposed with no rubber coating, and has at least one roughly circular cross-section protruding inward in the axial direction on the side where the oil seal is located. It has a letter-shaped curved part,
and a sleeve with a slinger made of a thin metal plate such that the outer peripheral edge of the slinger portion is located further outside than the outermost outermost part of the oil seal in the axial direction; An oil seal whose radial side is fixed to the housing and has a seal lip portion on its inner radial side, a sleeve made of a cylindrical thin metal plate that rotates together with the shaft and whose outer peripheral surface slides on the seal lip portion, and one end of this sleeve. The sleeve is fixed and extends outward in the radial direction, and a slinger made of a thin metal plate is a separate member, and the sleeve has rubber baked on its inner circumferential surface to a thickness that has an interference with the shaft, and the slinger is exposed with no rubber coating, and has at least one curved portion with a substantially U-shaped cross section that protrudes inward in the axial direction on the same side as the oil seal, and the outer peripheral edge of the slinger a sleeve with a slinger whose part is located further outside than the outermost outermost part of the oil seal in the axial direction; An annular member attached to the member may be provided to loosely connect the oil seal and the sleeve with a slinger, and the slinger may be made of a corrosion-resistant metal or a material with good thermal conductivity. It may also be made of solid metal. [Function] By adopting the above-mentioned means, the heat generated when the seal lip portion slides on the outer peripheral surface of the sleeve is transmitted from the sleeve to the slinger, and the heat is efficiently transferred from the surface of the slinger that is not covered with rubber. It will be released as a result,
In addition, dust from outside the slinger is prevented from entering the oil seal side because the outer peripheral edge of the slinger is located further outside than the outermost side of the oil seal. [Examples] Examples of the present invention shown in the drawings will be described below. FIG. 1 shows a first embodiment of a sleeve with a slinger for an oil seal and a seal assembly thereof according to the present invention. an oil seal 2 that is attached and has a seal lip portion 2a on the inner diameter side;
A metal member having a cylindrical sleeve portion 6 that is press-fitted onto the shaft 3 and has an outer peripheral surface on which the seal lip portion 2a slides, and a slinger portion 7 that extends one end of the sleeve portion 6 radially outward. a sleeve 4 with a slinger made of a thin plate; an annular member 8 made of a thin metal plate with a substantially L-shaped cross section that is attached to the t 4 Jl/seal 2 and connects the oil seal 2 and the sleeve 4 with a slinger in a loose state; , has been warned against. The sleeve portion 6 of the sleeve with slinger 4 has an outer circumferential surface adjusted to an appropriate surface roughness for sliding contact with the seal lip portion 2a, and an inner circumferential surface with an interference with respect to the outer circumferential surface of the shaft 3. The rubber 5 is baked to a thickness of The curved portion 7a is formed by protruding inward in the axial direction to have a U-shaped cross section, and the outer peripheral edge 7b between the curved portion 7a and the outer peripheral end 7c is closer to the outermost position of the oil seal 2. It is now located further outside. The oil seal 2 has a reinforcing ring 2b made of a thin metal plate embedded inside the rubber, and has an extension portion extending in the axial direction at the outer peripheral edge, and a flange formed by extending the outer peripheral end outward in the radial direction. 2c, and is fixed to the housing l by its flange portion 2C. Further, a dust lip portion 2d that slides on the outer peripheral surface of the sleeve portion 6 is provided on the axially outer side of the slinger portion 7 near the seal lip portion 2a, and an auxiliary lip portion 2d is provided in the vicinity of the dust lip portion 2d. A damper portion 2f is provided near the auxiliary lip portion 2e at a position facing the curved portion 7a of the slinger portion 7, and a coil spring is provided on the outer diameter side of the seal lip portion 2a. 2g is provided so as to give the seal lip portion 2a a hugging force to the outer circumferential surface of the sleeve portion 6. The annular member 8 is attached to the inner diameter side of the flange portion 2c of the oil seal 2, and the annular member 8 and the outer peripheral end 7c of the sleeve 4 with a slinger are loosely connected. It has become. To attach the seal assembly having the above configuration to the shaft 3,
With the oil seal 2 positioned on the outer peripheral surface of the sleeve portion 6 as shown, the sleeve 4 with a slinger is press-fitted onto the shaft 3, and the oil seal 2 is attached and fixed to the housing 1 for easy installation. At the time of this installation, the oil seal 2
The oil seal 2
There is no risk of damaging the seal lip portion 2a of the sleeve portion 6, and the outer circumferential surface of the sleeve portion 6 is
It is easy to achieve the optimum surface roughness during the manufacturing process. Therefore, the sliding abrasion resistance and sealing performance of the seal lip portion 2a can be set to optimal conditions. Then, when the shaft 3 rotates, the sleeve 4 with a slinger also rotates together with the rotation of the shaft 3, and the oil seal 2 having a seal lip portion 2a that slides on the outer peripheral surface of the sleeve portion 6 prevents the shaft of the sleeve 4 with a slinger. This means that the inside and outside of the direction can be sealed. At this time, the seal lip portion 2a of the oil seal 2 slides on the sleeve 6, and the sliding portion generates heat, but in the sleeve 4 with a slinger according to the present invention, the heat is transmitted from the sleeve portion 6 to the slinger portion 7. The heat transmitted to the slinger part 7 is efficiently dissipated in the part of the slinger part 7 which has the curved part 7a and has a large surface area and is not coated with rubber, so that the heat transmitted to the sleeve part 6 and the seal lip part 2a does not heat up abnormally, and there is no fear of damage to the seal lip portion 2a due to heating. Further, in the sleeve 4 with a slinger according to the present invention, the outer peripheral edge 7b of the slinger portion 7 is located further outside than the outermost flange portion 2c of the oil seal 2, so that as shown in FIG. It becomes difficult for dust to enter the inside of the outer peripheral edge portion 7b, and it is possible to reliably prevent dust from entering between the annular member 8 attached to the oil seal 2 and the slinger portion 7 in a loose state. In the seal assembly of the present invention, a labyrinth structure is formed between the curved part 7a of the slinger part 7 and the auxiliary lip part 2e of the oil seal 2.
Even if dust enters the oil seal 2 side, it can prevent the dust from entering the seal lip portion 2c. FIG. 3 shows a second embodiment of a seal assembly for a sleeve with a slinger according to the present invention, and this seal assembly for a sleeve with a slinger is similar to the first embodiment shown in FIG.
The embodiment differs in the structure for connecting the oil seal and the sleeve with a slinger in a loose state.

That is, the oil seal 12 has the same structure as the first embodiment, and each part is numbered by adding 10, and a rubber 1 is attached to the inner circumferential surface.
Sleeve portion 16 with 5 baked on it and its sleeve portion 16
One end extends outward in the radial direction and has a curved part 17a that is exposed without a rubber coating and protrudes inward in the axial direction on the side where the oil seal 12 is located. a sleeve with a slinger 14 having a slinger portion 17 whose radial outer peripheral edge portion 17b extends linearly outside the flange portion 12c of the oil seal l2;
It has a structure that does not use an annular member. In the assembly of the sleeve with a slinger having the above structure, the slinger part 17b extends to the outside of the flange part 12c of the oil seal l2, so dust can enter the oil seal 12 side without using an annular member. The present invention can prevent the above problems, reduce the number of parts, and have a simple structure, and other functions and effects are almost the same as those of the above-mentioned embodiments. FIG. 4 shows a third embodiment of the seal assembly for a sleeve with a slinger according to the present invention, and this seal assembly for a sleeve with a slinger is similar to the first embodiment shown in FIG.
In this embodiment, the sleeve and slinger of the sleeve with slinger are constructed as separate members, and the oil seal has a second auxiliary lip part, but the structure is the same. That is, a second auxiliary lip portion 22h is further provided on the outer radial side of the damper portion 22f provided on the outer radial side of the auxiliary lip portion 22e.
The structure is the same as that of the first embodiment except that 20
an oil seal 22 with an additional number; a sleeve 26 made of a thin metal plate having a rubber 25 baked on its inner peripheral surface and one end extending radially outward to form a flange portion 26a; It has a curved part 27a that is integrally provided inside the flange part 26a and extends radially outward, is exposed without a rubber coating, and protrudes inward in the axial direction on the oil seal 22 side, and A sleeve 24 with a slinger 24 having a slinger 27 made of a thin metal plate whose outer peripheral edge 27b on the outer diameter side of the curved portion 27a is located further outside than the outermost flange 22c of the oil seal 22, and the oil seal. The slinger 2 is attached to the inner diameter side of the flange portion 22c of the slinger 2.
and an annular member 28 made of a thin metal plate, which is loosely connected to the outer peripheral end 27c of 7. In the above assembly of the sleeve with a slinger, a labyrinth structure is formed between the second auxiliary lip portion 22h and the slinger 26 to more reliably prevent dust from entering the seal lip portion 22a. This can be prevented, and since the sleeve 26 and the slinger 27 are made of separate members,
Instead of the entire sleeve with slinger being made of the same material, only the slinger can be made of a metal material with excellent corrosion resistance and thermal conductivity, and it also does not need to be an integral part. Other functions and effects are the same as those of the first embodiment.

FIG. 5 shows a fourth embodiment of the seal assembly for a sleeve with a slinger according to the present invention, and this seal assembly for a sleeve with a slinger is similar to the third embodiment shown in FIG.
The structure of the embodiment is the same except that the structure of the sleeve with a slinger is different. That is, the oil seal 32 has a structure similar to that of the third embodiment, and each part is numbered by adding lO, and a rubber 3 is attached to the inner circumferential surface.
5 is baked, and has a sleeve 36 made of a cylindrical thin metal plate and a slinger 37 extending radially outward and provided integrally with the sleeve 36 on the axially outer side at one end of the sleeve 36. -37 is exposed without rubber coating and has a curved part 37a protruding inward in the axial direction, and the outer peripheral edge 37b on the outer diameter side of the curved part 37a is the outermost part of the oil seal 32. A sleeve 34 with a slinger located further outside the flange portion 32c, and a slinger 37 attached to the inner diameter side of the flange portion 32c of the oil seal 32.
and an annular member 38 made of a thin metal plate, which is loosely coupled to the outer peripheral end 37c of the ring. The assembly of the sleeve with slinger having the above structure has the same functions and effects as those of the third embodiment. FIG. 6 shows a fifth embodiment of a seal assembly for a sleeve with a slinger according to the present invention, and this seal assembly for a sleeve with a slinger is similar to the first embodiment shown in FIG.
This embodiment has the same structure as the third embodiment except that the structure of the sleeve with a slinger is the same as that of the third embodiment.

That is, with the same structure as the first embodiment, each part has 40
an oil seal 42 with a number added by 20; a sleeve 44 with a slinger having a structure similar to that of the third embodiment but with a number 7 added to each part; and a flange portion 42c of the oil seal 42. and an annular member 48 made of a thin metal plate which is attached to the inner diameter of the slinger 47 and is loosely connected to the outer peripheral end 47c of the slinger 47. The assembly of the sleeve with slinger having the above structure has the same functions and effects as those of the first embodiment. FIG. 7 shows a sixth embodiment of the seal assembly for a sleeve with a slinger according to the present invention, and this seal assembly for a sleeve with a slinger is similar to the fifth embodiment shown in FIG.
The embodiment is the same except that the structure is such that an interference is provided between the auxiliary lip portion of the oil seal and the slinger. That is, it is the same as the fifth embodiment except that the auxiliary lip part 52e of the fifth embodiment is made larger in size and has an auxiliary lip part 52e with a tightening margin between it and the slinger 57. an oil seal 52 with a structure similar to that of the fifth embodiment and having each part numbered with 10 added to it; a sleeve 54 with a slinger having the same structure as the fifth embodiment and with each part numbered with 10 added to it; and the oil seal 52. The outer peripheral end 57 of the slinger 57 is attached to the inner diameter side of the flange portion 52c.
and an annular member 58 made of a thin metal plate, which is loosely coupled with c. In the assembly of the sleeve with a slinger having the above structure, since the auxiliary lip portion 52e and the slinger 57 are in close contact, it is possible to more reliably prevent dust from entering the seal lip portion 52a. Other functions and effects are the same as in the fifth embodiment. FIG. 8 shows a seventh embodiment of the seal assembly for a sleeve with a slinger according to the present invention, and this seal assembly for a sleeve with a slinger is similar to the fifth embodiment shown in FIG.
The structure is the same as in the embodiment except that a damper member made of tetrafluoroethylene resin is provided in place of a part of the damper of the oil seal. That is, 20 was added to each part with the same structure as the fifth example except that an annular damper member 62f made of tetrafluoroethylene resin was provided in place of a part of the damper in the fifth example. A numbered oil seal 62, a sleeve with a slinger 64 having the same structure as the fifth embodiment and having each part numbered with 20 added, and a sleeve 64 with a slinger attached to the inner diameter side of the flange portion 62c of the oil seal 62. The slinger 67
An annular member 68 made of a thin metal plate is loosely connected to the outer circumferential end 67c of the outer peripheral end 67c. In the above structure of the sleeve assembly with a slinger, since the damper member 62f is made of polytetrafluoroethylene resin, there is little wear even when it slides on the slinger 67.
Further, since it is a separate member, only the damper member 62f can be replaced, and the durability of a part of the damper can be improved, and other functions and effects are the same as those of the fifth embodiment. FIG. 9 shows an eighth embodiment of a seal assembly for a sleeve with a slinger according to the present invention, and this seal assembly for a sleeve with a slinger is similar to the first embodiment and the fourth embodiment. By combining the examples, the structure of the oil seal, the structure of the sleeve with a slinger, and the structure that connects them in a loose state are changed. That is, the first embodiment is different from the first embodiment except that the flange portion of the oil seal of the first embodiment is extended outward to form the loose fitting portion 72i.
An oil seal 72 having a structure similar to that of the fourth embodiment and having each part numbered with 60 added, a sleeve 76 having a structure similar to that of the fourth embodiment, and a slinger 77 extending in the radial direction thereof.
Curved portion 77a, outer peripheral edge? 7b and outer peripheral end 77c
The shape of the oil seal 72 is changed to the shape shown in the drawing.
and a sleeve 74 with a slinger whose outer peripheral end 77c is loosely coupled to the loosely coupled portion 721 of the sleeve. In the assembly of the sleeve with a slinger having the above structure, the loose part 72 of the oil seal 72 and the outer end 77c of the slinger 77 are connected in a floating state. Similar to the second embodiment, the structure does not require an annular member, the number of parts can be reduced, and the structure is simple, and other functions and effects are similar to those of the first embodiment. The same is true. FIG. 10 shows a ninth embodiment of the seal assembly for a sleeve with a slinger according to the present invention. This is a change in the integral structure between the two. That is, each part has a structure similar to that of the fourth embodiment.
An oil seal 82 with an additional number, a sleeve 86 made of a substantially cylindrical thin metal plate with a rubber 85 for shaft mounting baked on its inner circumferential surface and one end having a larger diameter, and the larger diameter side of the sleeve 86. has an end that fits into the inner circumferential surface of the oil seal 82, extends radially outward from the end, is exposed without rubber coating, and protrudes axially inward where the oil seal 82 is located. 87a, and an outer peripheral edge 87b on the outer diameter side of the curved portion 87a is the oil seal 8.
a sleeve 84 with a slinger 84 having a slinger 87 made of a thin metal plate located further outside than the outermost flange 82c of the oil seal 82; and an annular member 88 made of a thin metal plate, which is loosely connected to the outer peripheral end 87c of the ring. In the assembly of the sleeve with slinger having the above structure, the slinger 87 of the sleeve with slinger 87 is made of a thin metal plate material with a large thermal expansion coefficient, and a difference in thermal expansion occurs between the sleeve 86 and the slinger 87. But slinger
Since the inner diameter side of the sleeve 87 is located on the inner diameter side of the sleeve 86 and the difference in thermal expansion can be suppressed, the integrity between the sleeve and the sleeve can be firmly maintained. Further, other functions and effects are almost the same as those of the above embodiment. The sleeve with the slinger can be made of any metal such as iron, stainless steel, or aluminum as long as it is a thin plate metal. The preferred embodiment is to use a metallic material with good thermal conductivity. As explained above, in the sleeve with a slinger for an oil seal of the present invention, as the shaft rotates, the sleeve portion of the sleeve with a slinger slides on the seal lip portion of the oil seal and generates heat. Since the slinger part is exposed without rubber coating and has a curved part to increase the surface area, the seal lip part can be heated abnormally and damaged. You don't have to worry about it happening. Further, since the outer peripheral edge of the slinger portion is located further outside than the outermost flange portion of the oil seal, it is possible to reliably prevent dust from entering between the oil seal and the slinger. Furthermore, since the seal assembly of the sleeve with slinger for oil seals of the present invention has good integrity, it is easy to install it on the shaft, and there is no risk of damaging the seal lip of the oil seal when it is installed. In addition, it is easy to make the outer circumferential surface of the sleeve part have the optimum surface roughness during the manufacturing process of the sleeve part, and the sliding abrasion resistance and sealing performance of the seal lip part can be set to optimum conditions. This is something that can be done. [Effects of the Invention] Since the present invention is constructed as described above, in the sleeve with a slinger for an oil seal, the heat generated by sliding on the seal lip of the oil seal as the shaft rotates is transferred to the sleeve. It is transmitted from the rubber to the slinger part, which is exposed without rubber coating and has a curved part to increase the surface area, and can efficiently dissipate it.There is no need to worry about the seal lip part becoming abnormally heated and damaged. Furthermore, since the outer peripheral edge of the slinger portion is located further outside than the outermost flange portion of the oil seal, it is possible to reliably prevent dust from entering between the oil seal and the slinger. becomes. moreover,
The seal assembly of the sleeve with slinger for oil seals has good integrity, so it is easy to install on the shaft, and there is no risk of damaging the seal lip of the oil seal during installation. It is easy to make the outer peripheral surface of the sleeve part have the optimum surface roughness during the manufacturing process of the sleeve part, and the sliding abrasion resistance and sealing performance of the seal lip part can be set to optimum conditions. It has the following effects.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional explanatory view showing a first embodiment of the seal assembly for a sleeve with a slinger according to the present invention, FIG. 2 is a view explaining the state of dust intrusion in FIG. 1, and FIG. FIG. 4 is a cross-sectional explanatory view showing a second embodiment of the seal assembly for a sleeve with a slinger, FIG. 4 is a cross-sectional view showing a third example of the seal assembly for a sleeve with a slinger according to the present invention, and FIG. FIG. 6 is a cross-sectional explanatory view showing a fourth embodiment of the seal assembly for a sleeve with a slinger according to the invention; FIG.
FIG. 7 is an explanatory cross-sectional view showing a fifth embodiment of a seal assembly for a sleeve with a slinger according to the present invention, and FIG. 7 is an explanatory cross-sectional view showing a sixth example of a seal assembly for a sleeve with a slinger according to the present invention. FIG. 8 is a cross-sectional explanatory view showing a seventh embodiment of a seal assembly for a sleeve with a slinger according to the present invention, and FIG. 9 is a cross-sectional view showing an eighth example of a seal assembly for a sleeve with a slinger according to the present invention. 10 is an explanatory cross-sectional view showing a ninth embodiment of a seal assembly for a sleeve with a slinger according to the present invention, and FIG. 11 is an explanatory cross-sectional view showing an example of a conventional seal assembly for a sleeve with a slinger,
FIG. 12 is a diagram illustrating the state of dust intrusion in the slinger of FIG. 11 with the rubber removed. 1, 9l... Housing 2, 1 2, 2 2, 3 2, 4 2,
5 2, 6 2, 7 2, 82, 92...
...Oil seal 2a, 12a, 22a, 32a, 42a,
52a, 62a, 7 2 a 182a
, 92a... Seal lip portion 2b, 12b
, 22b, 32b, 42b, 52b,
62b, 72b, 82b, 92b... Reinforcement ring 2 c, 1 2 C% 2 2 c,
3 2 c, 42 c, 52 c, 62 c
, 72c, 82c, 92c...flange portion 2d, 12d, 22d, 32d, 42d,
52d, 62d, 72d, 82d, 92d
...Dust lip part 2eS 12e, 22e,
32e, 4 2 e, 5 2 e, 6 2 e, 7 2
e, 82e, 92e... Auxiliary lip portion 2f, 1
2f, 22f, 32f, 42f, 52f,? 2f, 82f, 92f... Damper part 2g... Coil spring 22h, 32h... Second auxiliary lip part 62f
..... Damper member 3, 93 ..... Shaft 4, l4, 24, 34, 44, 54, 64, 74, 84, 94 ..... Sleeve with slinger 5, l5
, 25, 35, 45, 55, 65, 75, 85, 95...Rubber 6, l
6, 96... Sleeve portion 2 6 , 3 6
, 4 6 , 5 6 , 6 6 , 76, 86・
... Sleeve 46a ... Flange parts 7, 17, 97 ... Slinger parts 27, 37,
47, 57, 67, 77, 87... Slinger 7a, 17a, 27as37a-, 47a, 57a, 67a, 77a, 87a... Curved portion 7b, 17b, 27b, 37b, 47b, 57b, 67b, 1lb, 87b...Outer peripheral edge Fig. 2 8''7 signif

Claims (7)

[Claims] (1) Used together with an oil seal, it has a cylindrical sleeve part that rotates together with the shaft and a slinger part that extends one end of this sleeve part radially outward, and the oil seal is attached to the outer peripheral surface of the sleeve part. A sleeve with a slinger for an oil seal made of a thin metal plate on which a seal lip portion of the seal slides, the sleeve portion having rubber baked onto its inner circumferential surface to a thickness that has a tightening margin on the shaft, and the slinger portion is exposed with no rubber coating, and has at least one curved portion having a substantially U-shaped cross section that protrudes inward in the axial direction on the side where the oil seal is located, and the outer peripheral edge of the slinger portion A sleeve with a slinger for an oil seal, characterized in that the slinger is located further outside than the axially outermost part of the oil seal. (2) An oil seal whose outer diameter side is fixed to the housing and which has a seal lip part on its inner diameter side, a cylindrical sleeve part that rotates together with the shaft and whose outer peripheral surface slides on the seal lip part, and this sleeve part. a slinger part with one end extending radially outward; the sleeve part has rubber baked onto its inner circumferential surface to a thickness that has a tightening margin for the shaft; and the slinger part is exposed with no rubber coating. and has at least one curved portion having a substantially U-shaped cross section that protrudes inward in the axial direction, which is the side where the oil seal is located, and the outer peripheral edge of the slinger portion extends in the axial direction of the oil seal. A seal assembly for a sleeve with a slinger for an oil seal, comprising: a sleeve with a slinger made of a thin metal plate that is positioned further outside than the outermost part of the sleeve. (3) An annular member attached to one member is provided between the oil seal and the sleeve with slinger, thereby coupling the oil seal and the sleeve with slinger in a loose state. Seal assembly of sleeve with slinger for oil seal. (4) A sleeve made of a cylindrical thin metal plate that is used together with an oil seal and rotates together with the shaft, and a slinger made of a thin metal plate that is a separate member from the sleeve and fixed to one end of the sleeve and extended radially outward. A sleeve with a slinger for an oil seal, in which a seal lip portion of the oil seal slides on an outer circumferential surface of the sleeve, the sleeve having a rubber layer on its inner circumferential surface having a thickness that has an interference with the shaft. The slinger is exposed with no rubber coating, and has at least one curved portion having a substantially U-shaped cross section that protrudes inward in the axial direction on the side where the oil seal is located; A sleeve with a slinger for an oil seal, characterized in that an outer peripheral edge of the slinger is located further outside than the outermost outermost part of the oil seal in the axial direction. (5) An oil seal whose outer diameter side is fixed to the housing and which has a seal lip portion on its inner diameter side, and a sleeve made of a cylindrical thin metal plate that rotates together with the shaft and whose outer peripheral surface slides on the seal lip portion; The sleeve is fixed to one end of the sleeve and extends outward in the radial direction, and a slinger made of a thin metal plate is a separate member, and the sleeve has rubber baked onto its inner peripheral surface to a thickness that has an interference with the shaft. The slinger is exposed with no rubber coating, and has at least one curved portion having a substantially U-shaped cross section that protrudes inward in the axial direction, which is the side where the oil seal is located, and 1. A seal assembly of a sleeve with a slinger for an oil seal, comprising: a sleeve with a slinger whose peripheral edge is located further outside the outermost axially outermost part of the oil seal. (6) An annular member attached to one member is provided between the oil seal and the sleeve with slinger, thereby coupling the oil seal and the sleeve with slinger in a loose state. Seal assembly of sleeve with slinger for oil seal as described. (7) The sleeve with a slinger for an oil seal according to claim 4, wherein the slinger is made of a corrosion-resistant metal or a metal with good thermal conductivity.