GB2136891A

GB2136891A - Sealing device assembly

Info

Publication number: GB2136891A
Application number: GB08403405A
Authority: GB
Inventors: Naoki Mitsue; Hideki Takahashi
Original assignee: NSK Ltd
Current assignee: NSK Ltd
Priority date: 1983-02-12
Filing date: 1984-02-09
Publication date: 1984-09-26
Also published as: DE3404816A1; GB2136891B; JPH0252140B2; JPS59164457A; FR2540955A1; DE3404816C2; FR2540955B1; BR8400570A; GB8403405D0

Abstract

A seal assembly for sealing a chamber formed between the radially inner and outer coaxial members spaced apart radially from each other and rotatable relative to each other comprises a first radial member 32b extended radially inwardly from the outer member toward the outer periphery of the inner member, a second radial member 40 disposed axially outside from the first radial member 32b and extended radially outwardly from the inner member toward the outer member so that the first and second radial members may oppose to each other, a first seal means 36 disposed between the tip end of the first radial member 32b and the inner member, a second seal means 46 disposed between a side surface of the first radial member and the second radial member, and a third seal means 48 disposed between the outer member and the second radial member, the first, second and third seal means being so formed that leak of lubricant contained in the chamber may be permitted, while flow of foreign material from exterior may be prevented. The third seal means may co-operate directly with the outer member (Fig. 5). The first seal means may be secured to a member connected to the second radial member (Fig. 6). <IMAGE>

Description

SPECIFICATION Sealing device assembly BACKGROUND OF THE INVENTION Field of the Invention This invention relates to a sealing device. assembly disposed between two members rotatable relative to each other, particularly, two members one of which is rotatable and the other is fixed, such as the inner and outer races of an antifriction bearing, and more particularly to a sealing device assembly provided with at least three seal portions.

-Description of the Prior Art In mechanical apparatuses, there are known various types of sealing structure assemblies in which the space between a rotary shaft and a housing containing bearings associated with the rotary shaft or between members rotatable relative to each other such as the rings of, individual antifriction bearings is reliably sealed by a method of continuously separating the apparatus into sealed chambers for the purpose of preventing leakage of lubricant from the apparatus or entry of dust or extraneous contaminants into the apparatus.

In an example of the prior art made from such a viewpoint (European Patent Application No. 0,051,170), as shown in Fig. 1 of the accompanying drawings, the sealing device assembly is designated by reference numeral 1 and is interposed between a rotary shaft 2 and a seat 3 forming on a housing 4 coaxially with the rotary shaft. The sealing device assembly 1 (Fig. 1) is comprised of a sealing ring 5 and a rigid shield member 6 fixed to the shaft 2. The sealing ring 5 has an annular support member 7 formed of a metal or other rigid material of high resistance, and a sealing member 8 made of a flexible and resiliently deformable material is secured to the support member 7.

The cross-section of the support member 7 is of an L-shape, and a first portion 9 thereof is parallel to the axis of the shaft and a second portion 10 thereof is perpendicular to the other portion and extends out radially relative to the axis of the shaft. On the other hand, the sealing member 8 includes a portion 11 which is parallel to the portion 10 of the member 7 and substantially flat. Two annular lips extend out from this portion 11.

The first annular lip 1 2 extends out substantially in parallelism to the axis of the shaft 2 and moreover in a state inclined by a predetermined small angle in a direction away from the axis of the sealing member itself. On the other hand, the second annular lip 14 extends out from the base of the first lip 1 2 of the portion 11 in a predetermined slightly inclined state and in a direction substantially perpendicular to the axis of the sealing member itself.

The end portions 14 and 1 5 of the two lips 12 and 1 3 are so formed as to be slidable on the surfaces 20 and 21, respectively, of the shield member 6. The shield member 6 is comprised of a sleeve portion 22 of a suitable thickness and a flange portion 23 perpendicular to the sleeve portion. The support member 7 can be fitted in the seat formed in the housing 4, against movement, and is coupled to the housing 4 by the'portion 9 thereof.

The sealing device assembly 1 operates in the following manner.

The sealing ring 5 is fixed to the seat 3 formed on the housing 4 by the portion 9.

Subsequently, the rigid shield member 6 is mounted by being pushed along the shaft 2 until the flange portion 23 becomes flush with the edge 1 6 of the portion 9. In this manner, the lips 1 2 and 1 3 are resiliently deformed and the end portions 14 and 1 5 thereof come into contact with the surface 20 of the flange portion 23 and the surface 21 of the sleeve portion 22, respectively.

The end portion 14 faces the environment, while the end portion 1 5 faces an interior chamber 1 7 defined by the seat 3 and the shaft 2. The lubricant which may leak from the annular chamber 1 7 meets the annular lip 1 3 which slides while being urged against the surface 21 of the sleeve portion 22 with a predetermined pressure. The end portion 1 5 of the lip 1 3 faces the interior of the interior chamber 1 7 and therefore, the stronger is the pushout force of the lubricant which tends to leak out, the greater is the sealing effect.

In contrast, extraneous contaminants which tend to enter the chamber 1 7 meet the annular lip 1 2 which slides while keeping contact with the surface 20 of the flange portion 23 with a predetermined pressure. The end portion 14 of the lip 1 2 faces the environment and therefore, in this case, the greater is the increase in the pressure with which the contaminants act on the sealing portion, the more is increased the pressure of contact between the surface 20 and the lip 1 2 and the more is increased the sealing effect.

The above-described prior art is effective in preventing the lubricant from leaking out from the interior of the mechanical apparatus and also preventing extraneous contaminants from entering the interior of the mechanical apparatus. However, if a contaminant such as muddy water from the outside adheres to the vicinity of the first annular lip 12, the contaminant will intervene between the lip 1 2 and the surface 20 to abrade the lip 12, thus expediting the entry of muddy water.Also, since the lips 1 2 and 1 3 face in said directions, the interior of the annular chamber surrounded by the lips 12, 1 3 and the shield member 6 assumes a negative pressure with respect to the ambience due to a temperature change and thus, the lips will be intensely urged against the sliding surface, thereby expediting abrasion of the lips.

Also, the provision of only two lips (lips 1 2 and 13) leads to an insufficient sealing effect in respect of both the prevention of leakage of the lubricant and the prevention of entry of contaminants.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described situation and an object thereof is to eliminate the disadvantages peculiar to the prior art and to provide a sealing device assembly whose sealing effect is not injured by a contaminant such as muddy water which enters the mechanical apparatus from the outside thereof.

To achieve the above object, in the present invention, three annular lips are provided and these three lips may be resiliently deformed in a forward direction (the same direction as) with respect to the direction from the interior to the exterior to thereby rather permit lubricant to leak slightly, whereby the seal portion may be lubricated to prevent the lips from being abraded by muddy water or the like.

The invention will become more fully apparent from the following detailed description thereof taken in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an assembled cross-sectional view showing an example of the prior art.

Figure 2 is a cross-sectional view of a first embodiment of the present invention.

Figures 3A and 3B are exploded perspective views of the first embodiment.

Figure 4 is an assembled cross-sectional view of the first embodiment.

Figures 5 and 6 are assembled cross-sectional views showing the essential portions of second and third embodiments, respectively, of the present invention.

DESCRIPTION OF THE PREFERRED EMBODI MENTS Some embodiments of the present invention will hereinafter be described in detail by reference to Figs. 2 to 6.

Figs. 2 to 4 show a first embodiment of the present invention applied to double row bearings suitable as the bearings for the rear wheels of an automotive vehicle of the independent suspension type. A double row bearing has an inner race 102 and an outer race 104 radially spaced apart from each other through rolling members 100, rotatable relative to each other and disposed concentrically with each other. Sealing devices 105 according to the present invention which will hereinafter be described in detail are provided radially between the inner race 102 and the outer race 104 and the axial opposite end positions.

As shown in Figs. 3A and 3B, the sealing device assembly is comprised of a first annular element 30 comprising a first sealing member 34 secured to a first support member 32 which in turn is secured to the outer race 104 as will later be described, and a second annular element 40 comprising a second sealing member 44 secured to a second support member 42 which in turn is secured to the inner race 102. The first support member 32 is formed of a suitable metal and has an axially extending first portion 32a and a second portion 32b extending in a direction perpendicular thereto at the axial inner side.

The first sealing member 34 provided with a lip 36 formed of rubber or the like and extending radially inwardly and axially outwardly is attached to the inner peripheral side of the second portion 32b. On the other hand, the second support member 42 likewise has an axially extending first portion 42a and a second portion 42b extending perpendicularly thereto at the axial outer side. The second sealing member 44 provided with two bifurcated lips 46 and 48 formed of rubber or the like is outwardly attached to the outer peripheral side of the second portion 42b.

The lip 46 extends less radially outwardly and more axially inwardly than the lip 48.

To mount the sealing device assembly, as shown in Fig. 4, the first annular element 30 is inserted into a seat 54 until it bears against the stepped portion 52 of the outer race 104 of the bearing, and then the second annular element 40 is inserted into a seat 58 until it bears against the stepped portion 56 of the inner race 102 of the bearing. When the second annular element 40 is inserted, the lip 36 of the first sealing member 34 comes into contact with the inner peripheral surface of the first portion 42a of the second support member 42 and is resiliently deformed in the direction opposite to the direction of insertion (rightwardly as viewed in Fig. 4), thereby forming a first radial seal portion 60.Also, the lip 48 of the second sealing member 44 comes into contact with the inner peripheral surface of the cylindrical first portion 32a of the first annular element 30 and is resiliently deformed in the same direction, thereby forming a second radial seal portion 62. The lip 46 of the second sealing member 44 comes into contact with the axial outer surface of the radially extending second portion 32b of the first annular element 30 at the final stage of the insertion and is resiliently deformed, thereby forming an end face seal portion 64.

Description will now be made of the operation of the sealing device assembly assembled in the manner as described above. The lubricant in an interior chamber 70 formed between the inner and outer races is not completely prevented from leaking by the first and second radial seal portions 60 and 62 and the end face seal portion 64, but rather these seal portions permit leakage of the lubricant to the outside. This is because, relative to the direction of leakage of the lubricant indi cated by dot-and-dash line, the lips 36, 46 and 48 are resiliently deformed in a forward direction.

On the other hand, said direction in which the lips 36, 46 and 48 face is opposite-to the direction of entry of muddy water or the like which tends to enter the chamber 70 from the outside 72 (the direction opposite to said dotand-dash line) and therefore, entry of muddy water or the like is well prevented. The muddy water is considerably cleaned by passing through the second radial seal portion 62 and, when it has passed through the end face seal portion 64, almost all of the mud, sand, etc. are eliminated therefrom. Moreover, the lubricant leaks into both the radial seal portions 60, 62 and the end face seal portion 64 and therefore, the surface of the first support member 32 is scarcely injured by the sand or the like collected in these portions.

A second embodiment of the present invention will now be described by reference to Fig.

5 in which, for simplicity, portions corresponding to those of the above-described embodiment are given similar reference numerals. The differences of the second embodiment from the first embodiment will be described chiefly. A difference of this embodiment from the above-described embodiment is that the axial width of the annular elements 30 and 40 is made narrower to make the entire device compact. For this reason, the lip 48 of the second sealing member 44 of the second annular element 40 is made relatively long and moreover extends axially outwardly (rightwardly as viewed in Fig. 5). The lip 48 is in direct contact not with the support member 32 of the first annular element 30 but with a seat 54 formed on the inner periphery of the outer race 104.

Also, third portions 32c and 42c somewhat inclined so as to face each other are provided in continuation to the radially extending second portions 32b and 42b of the first and second support members 32 and 42, and sealing members 34 and 44 are secured to the third portions.

In the above-described two embodiments, the three lips 36, 46 and 48 are formed so as to provide one or two lips for the first or second annular element 30 or 40, but doing so is not indispensable. As shown in Fig. 6 which shows a third embodiment, another lip 49 in addition to the sealing member 44 may be secured to the support member 42 of the second annular element 40 and may be brought into contact with the inner peripheral side of the right-angle bent portion 32d of the support member. 32 and no sealing member may be provided on the support member 32 of the first annular element 30. The lip 49 secured to the first portion 42a of the second support member 42 is of course formed so as to be in a forward direction relative to the direction of leakage of lubricant.

The mechanical apparatuses to be sealed include various ones in addition to bearings, and the present invention is widely applicable to these.

According to the present invention, as described above in detail, the sealing device assembly has at least two radial seal portions and at least one end face seal portion and moreover, any of these three seal portions is formed so as to face the outside from the interior of the mechanical apparatus. That is, some amount of the interior lubricant can leak out toward the outside and thus, the abovementioned seal portions are lubricated by the lubricant which has leaked out, and this leads to the effect that the seal portions are not damaged by extraneous contaminants.

Claims

1. A seal assembly for sealing a chamber formed between the radially inner and outer members disposed coaxially and spaced apart radially from each other, the members being rotatably relative to each other, the seal assembly comprising: a first radial member extended radially inwardly from the outer member toward the outer periphery of the inner member, a second radial member disposed axially outside from the first radial member and extended radially outwardly from the inner member toward the outer member so that the first and second radial members may oppose to each other, a first seal means disposed between the tip end of the first annual member and the inner member, a second seal means disposed between a side surface of the first radial member and the second radial member, a third seal means disposed between the outer member and the second radial member, and the first, second and third seal means being so formed that leak of lubricant contained in the chamber may be permitted, while flow of foreign material from exterior may be prevented.

2. A seal asssembly for sealing a chamber formed between the radially inner and outer members disposed coaxially and spaced apart radially from each other, the members being rotatably relative to each other, the seal assembly comprising: a first radial member extended radially inwardly from the outer member toward the outer periphery of the inner member, a second radial member disposed axially outside from the first radial member and extended radially outwardly from the inner member toward the outer member so that the first and second radial members may oppose to each other, a first seal means disposed between the tip end of the first annual member and the inner member, to form a first seal, a second seal means including a resilient seal member secured to the second radial member, the seal member being bifurcated to form a first end which is in contact with a side surface of the first radial member to form a second seal and a second end which forms a third seal between an inner periphery of the outer member and the second end, the first, second and third seal means being so formed that leak of lubricant contained in the chamber may be permitted, while flow of foreign material from exterior may be prevented.

3. A bearing assembly comprising an inner race member: an outer race member concentrically arranged with the inner race member to form an annular chamber between the inner race member and the outer race member, rolling elements disposed between inner race member and the outer race member in the chamber so that the inner race member and outer race member may rotate relative to each other, means for sealing the chamber, the sealing means includes a first radial member extended radially inwardly from the outer race toward the outer periphery of the inner member, a second radial member disposed axially outside from the first radial member and extended radially outwardly from the inner race toward the outer race so that the first and second radial members may oppose to each other, a first resilient seal member disposed between the tip end of the first annual member and the inner member to form a first seal, a second resilient seal member secured to the second radial member and bifurcated to form a first seal element which is in contact with a side surface of the first radial member to form a second seal and a second seal element which is in contact the outer race member to form a third seal, the first, second and third seal being so formed that leak of lubricant contained in the chamber may be permitted, while flow of foreign material from exterior may be prevented.

4. A seal assembly for providing sealing means between a radially inner member and a radially outer member which are coaxial and rotatable relative to one another, the seal assembly comprising three sealing lips arranged to form respective seals against the axial passage of matter across the seal assembly in use.

5. A seal assembly for providing sealing means between a radially inner member and a radially outer member which are coaxial and rotatable relative to one another, the seal assembly comprising first and second sealing lips at least, said sealing lips being arranged so as to permit passage of matter in one axial direction across the seal assembly in use and prevent passage of matter in the other axial direction across the seal assembly in use.

6. A seal assembly substantially as herein particularly described with reference to Figs. 3 and 4, or Figs. 3 and 4 when modified by Fig. 5, or Figs. 3 and 4 when modified by Fig. 6 of the accompanying drawings.

7. A bearing including a seal assembly as claimed in any of claims 1, 2, and 4 to 6.