AU600072B2

AU600072B2 - Submersible bearing and hub assembly

Info

Publication number: AU600072B2
Application number: AU10340/88A
Authority: AU
Inventors: Barry Frederic Ryan
Original assignee: Individual
Current assignee: Individual
Priority date: 1987-01-12
Filing date: 1988-01-12
Publication date: 1990-08-02
Anticipated expiration: 2008-01-12
Also published as: AU1034088A

Description

6 0007 2 1?oo/s ii rFarm PATENT8 ACT 1962 COMPLETE SPECIFICATION (OR IGMNAL) FOR OFFICE USE Shcon Titi: r, Cf: Application Number: Wood: P H 9 G,2 7 3.2th Januoary, 198*7 secotiO 4.

(or a 0 ,Coiplo Spocdflcaiori,--lodgr Lapsed; Publishod: F IWIY 4 oii1 Ail TO BE COMPLETEL) UY APPLICANT Narna of Anplucant: ]ARPY PREDE]Ri(2 PYAN ,Addrncv of Applicanti .Aclunl Inwinor- B23 aci:kto-111 NQ 21 BARR.Y FR.EDERIrC RYAN Ad.1~In 1 IX I1'5- Ross -s-r.

ipu;a 'clfctoion for thA inventin ontilnad 1 su~ffi3EsniLE B3EARING A\ND 14U&~ 4;S'EWv1LY i1,) folowing satemnent i o full descriptionri ic i rivenfori. on, CltudirNrt ho bost rnethod of Pariormni it k.C/1vl) 1 he, *jesvtpilon ii to be typit in double wpaciug. iii q 1tow face, ii an area not oxeoding 260 m~m In despil and loI~C ninir Width, an fougth While Paeer of uVncid rjbo ind 1!tis to br inated In5It,3 111 i l rn i: I -iii-i -2- This invention relates to the protection from deterioration of bearings resulting from water penetrating the interior of vehicle hubs in which such bearings are housed.

A feature of the wheel hub assemblies presently in use is that whenever the wheel hub of a vehicle is under the level of water, as is common for boat trailers submerging to launch or retrieve a vessel or a caravan subjected to flooded crossings, water enters the hub housing and penetrates to the bearings located therein. The water enters because it exerts a higher external pressure on the sealing lip of the hub seal than the gas pressure resident within the hub itself, so distorting the lip of the seal and allowing water to enter the hub. As a result, the lubricant within the hub becomes 15 contaminated with water which spreads to the bearings and fg. causes oxidation and rapid deterioration of the wearing surfaces of the bearing assemblies.

It is an object of the present invention to prevent i water entering wheel hub housings, thereby maintaining the lubricant in a substantially uncontaminated condition and Sprotecting the bearings from water mediated deterioration.

It has now been found that filling the interior of the hub housing with liquid lubricant will stop penetration of water through the sealing lip of the hub seal when the hub is submerged in water. The present invention resides in a means for automatically filling a hub housing with liquid lubricant when the hub is stationary or rotating at low speed.

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-3- Accordingly, the present invention resides in a submersible wheel bearing assembly which is not subject to penetration by water when submerged in water and rotating at low speed.

According to the invention there is provided a submersible wheel bearing assembly comprising; a wheel hub housing, a liquid lubricant reservoir positioned above said housing, a a oo a tube connecting said reservoir to an oil relief port means associated with said housing, said port means communicating with the interior of the hub housing for oi l filling of the interior with lubricant when said hub housing is stationary or rotating at low speed, said port means being operable to provide the escape of 9 1 lubricant into the reservoir from the hub housing when said hub housing is in rapid motion.

i The communication between the lubricant reservoir and the interior of the hub housing may be achieved by a variety ,0 of port means.

In one embodiment, there is provided a submersible a wheel bearing assembly comprising a wheel hub housing, a r 3 s 0t-- -4liquid lubricant reservoir positioned above said housing, a sleeve means surrounding an axle inwardly of said housing, means defining a liquid lubricant passageway between said sleeve and the interior of said housing, and port means communicating with said passageway and with said reservoir.

Preferably the sleeve means comprises two parts of different internal diameter, being a smaller internal diameter part adapted to fit against the shoulder of the axle and be sealed thereto by an 0ring seal positioned along the inner circumference of the said smaller part, a larger internal diameter part adapted to fit within the seal of the hub housing and contact against the *o00 0 0 inner cylinder of the bearing, said contacting surface adapted to allow passage of lubricant from the sleeve o: interior to the roller bearings and the hub interior, and an oil relief port extending across the wall of the sleeve and emerging at the inner surface of the said larger part to provide communication between the s e interior and exterior of the sleeve, which oil. relief port engages a tube feeding from a lubricant reservoir.

In a further embodiment, there is provided a submersible wheel bearing assembly comprising a wheel hub housing, a liquid lubricant reservoir positioned above said housing, an inner spring seal surrounding an axle and sealing

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with said housing, and port means communicating with the interior of said housing and with said reservoir, said port comprising a passageway through said inner spring seal.

Preferably the inner spring seal comprises: a circular expanding spring; a sealing lip tensioned upon the outer circumference of the said spring; and which consists of: t an outer lip adapted to be fitted within the seal of the hub housing, and, an inner flange adapted to 'secure the spring seal to the surface of the axle, which flange when so secured provides a cavity within the spring seal

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gthat communicates with the roller bearings and 0000 o oo the hub interior, and ,'015" an oil relief port extending across the wall of :the flange to communicate between the interior cavity of the spring seal and the exterior, which oil relief port engages a tube feeding from a o lubricant reservoir.

e oo *Oo° In a further embodiment, communication may be achieved °o by a galley or series of galleys passing through the axle and which extend to the interior of the hub housing and which receive lubricant from the lubricant reservoir by an oil o*0oo relief port which either may extend from and be continuous with the opening of the galley on the axle surface, or may be with the opening of the galley on the axle surface, or may be 1 l~ mp"~~a* o. a 0 o 00 0 0 30 0 0 a 9 YS o 0 CO o e S00 o 0 66 0 0 0 -6a part of an oil transfer sleeve when in its functional position.

Particular embodiments of the present invention will now be described with reference to the accompanying drawings in which:- Fig. 1 is a longitudinal section of the assembled axle and hub housing incorporating the sleeve means schematically connected to the lubricant reservoir, Fig. 2 is a sectional side view of the sleeve means which is used in the assembly of Fig. 1, Fig. 3 is a view toward the smaller external diameter part of the sleeve means which is used in the assembly of Fig. 1, Fig. 4 is a view toward the larger external diameter part of the sleeve means, with dotted lines representing the securing holes within the walls of the sleeve, Fig. 5 is a longitudinal section of the assembled axle and hub housing incorporating the axle galleys and continuous oil relief outlet, Fig. 6 is a longitudinal section of the assembled axle and hub housing incorporating the sleeve means of Fig. 2 and the axle galleys, Fig. 7 is a view toward the oil relief port of the inner spring seal, Fig. 8 is a sectional side view through XX of the inner spring seal of Fig. 7, -7- Fig. 9 is a sectional side view through XX of the upper part of the inner spring seal of Fig. 7, and, Fig. 10 is a plan view of the circular expanding spring used in the inner spring seal of Fig. 7.

The following is a description of a preferred embodiment which uses the sleeve means of Fig. 2 as the means of communication between the lubricant reservoir and the hub interior, and is described in conjunction with Figs. 1, 2, 3, and 4.

A trailer axle 10 supports a hub 11 on roller bearings 12 and 13. The hub is maintained in position by thrust washer 14 and adjusting nut 15. A cap 16 encloses the outer end of the hub 11. A sleeve means 17 with oil relief port 18 is fitted within the hub seal 19 and is pressed against the 0000 o.11& shoulder of the axle 10 to enclose the interior of the hub 0 0 0 3 0ooo housing. The sleeve means is secured to the axle 10 by one 0000 or more tightening screws (not shown) through securing holes The oil relief port 18 should be at its uppermost position. The roller bearings 12 and 13 allow the hub 11 2'O freely to rotate about the axis of the axle °O Liquid lubricant may be introduced into the hub oo> interior by a variety of means. Preferably, however, during installation of the apparatus of the present invention, the lubricant is introduced through the oil relief port 18 and 0 0 displaced air allowed to escape from the interior through a S21 drilled through the hub housing hole 21 drilled through the hub housing. Normally the hole

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i 44- -8- 21 is closed by plug 22. The lubricant introduced through oil relief port 18 passes through recess 23 and oil flow grooves 24 to the roller bearings 12 and hub interior. The plug 22 is then reinserted to seal the lubricant within the hub interior.

An empty storage reservoir 25 is then positioned above the level of the hub interior and a hollow tube 26 feeds from the reservoir 25 to a T-junction 27 where the tube divides into two. Each tube feeds into the oil relief port 18 on its respective hub housing. Each tube is secured to the oil relief port by a clip 28 to complete the communication of the storage reservoir with the hub interior.

When the assembly of Fig. 1 filled with lubricant is e at functioning, centrifugal force and the cavitation effect of 4 a the bearings 12 and 13 propels lubricant to the oil relief port 18 and then into the tubing 26, which acts as a reservoir. If required, lubricant may enter but not fill the reservoir 25. Enough lubricant remains in the hub interior ,o during operation to ensure proper functioning and protection of wearing surfaces. As the rate of rotation of the hub decreases, liquid lubricant falls under gravity and returns to the hub interior. The O-ring seal 29 ensures that the lubricant does not escape from the hub interior, but is directed along recess 23. When stationary, the hub interior is filled with lubricant.

When the hub housing Is submerged in water, the lubricant-filled interior will oppose penetration of water -9through the hub seal 19 by applying a counter pressure, supplied by the head of lubricant in the tubing 26 above the hub, from within on the lip of the hub seal 19.

The following is a description of an embodiment which makes use of oil transfer galleys drilled through the axle as shown in Fig. 5 as a means of communication between the reservoir 25 and the hub interior. The modified axle of Fig.

5 may be used in conjunction with the sleeve means of Figs.

2, 3 and 4, (as shown in Fig. or with any sleeve that has an oil relief port but lacks the recess -23, or with an oil relief port that is continuous with the axle and extends from the opening of the galley (when a sleeve is absent).

The oil relief port 18, is continuous with the oil transfer galley 30 drilled perpendicularly to the axis of the 15-0 axle 10. The galley 30 connects to another galley 31 drilled «5 along the central longitudinal axis of the axle, and which

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emerges behind the cap 16, thus providing a communication between the reservoir 25 and the outer cavity 32 of the hub housing. The galley 30 also connects with another galley 33 2 drilled so as to pass under the shoulder of the axle upon o which the sleeve means or, when such a sleeve is absent, the hub seal sits. The galley 33 emerges at the surface of the axle upon which the roller bearing 12 sits via a gutter 34.

The lubricant can therefore freely displace under the inside surface of the roller bearing 12 and so communicate between the tubing 26 and the inner cavity 35 of the hub housing, by

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1 0ra 08 0 00 1QB 040 the effect of the centrifugal force generated by the rotation of the hub when the hub assembly is in motion, and by gravity when the hub assembly is stationary or at low speed.

The following is a description of an embodiment which uses the inner spring seal of Fig. 8 as the means of communication between the lubricant reservoir and the hub interior, and is described in conjunction with Figs. 1, 7, 8, 9 and 10. The inner spring seal may replace the sleeve means which is part of the assembly of Fig. 1.

0 The inner spring seal sits against the wall of the inner cylinder of roller bearing 12 on axle shoulder 36. The inner spring seal consists of a sealing lip 37 which, when in operation, presses against the hub seal 19 by tension applied by the circular expanding spring 38. The sealing lip S consists of an outer lip 39 and an inner flange 40, which 0o flange provides a tight contact between the inner spring seal and the axle shoulder 36. The oil relief port 41 extends across the wall of the flange 40 to communicate between the interior cavity 42 of the inner spring seal and the exterior.

0 An air bleed tube 43 also extends across the wall of the flange 40 to allow for the purging of air during lubricant filling of the hub interior. The inner spring seal with oil relief port 41 therefore allows displacement of the lubricant .4 4 between the tubing 26 and the inner cavity 35 of the hub 5 housing as described.

04« 00 0 0 o 4 2 o 4 0 0

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4 2 1 -11- It is now apparent that applying any one of the various embodiments of the present invention to conventional hub and axle assemblies will substantially overcome the abovementioned problems hitherto encountered when such assemblies are submerged in water. The filling of the hub interior with lubricant to provide sufficient outward pressure to overcome the pressure of the water on the hub seal may be achieved by the above means or any other means which allows the free passage of lubricant between the interior of the hub and reservoir means as hereinbefore discussed-..

Various modifications may be made in details of design o0na .0..a 0 and construction without departing from the scope and ambit of the invention.

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Claims

1. A submersible wheel bearing assembly comprising; a wheel hub housing, a liquid lubricant reservoir positioned above said housing, a tube connecting said reservoir to an oil relief port means associated with said housing, said port means communicating with -the interior of the "000%hub housing for filling of the interior with 0000 4 lubricant when said hub housing is stationary or 0000 rotating at low speed, said port means being operable to provide the escape of lubricant into 0 0 the reservoir from the hub housing when said hub housing is in rapid motion.

2. An assembly according to claim 1 further comprising sleeve means surrounding an axle inwardly of said 00 a housing, means defining a liquid lubricant passageway between 0 0 said sleeve and the interior of said housing, said port means communicating with said passageway. 0 seev 3 An assembly according to claim 2 wherein the sleemeans comprises two parts of different internal diameter, being: a smaller internal diameter part adapted to fit against the shoulder of the axle and be sealed thereto by an 0- ring seal positioned along the inner circumference of the said smaller part, a larger internal diameter part adaptpd to fit A k/.Wwithin the seal of the hub housing and contact -13- against the inner cylinder of the bearing, said contacting surface adapted to allow passage of lubricant from the sleeve interior to the roller bearings and the hub interior, and an oil relief port extending across the wall of the sleeve and emerging at the inner surface of the said larger part to provide communication between the interior and exterior of the sleeve, 0ea which oil relief port engages a tube feeding from ~a lubricant reservoir. q. a o4oo An assembly according to claim 1 further 0 0 Sa comprising an inner spring seal surrounding an axle and sealing with said housing, said port comprising a passage through said inner spring seal. An assembly according to claim 4, wherein said oao 0 inner spring seal comprises: o a S0a circular expanding spring; o oa sealing lip tensioned upon the outer circumference of the said spring; and which consists of: #0 an outer lip adapted to be fitted within the seal of the hub housing, and, an inner flange adapted to secure the spring seal to the surface of the axle, which flange when so secured provides a cavity within the spring seal that communicates with the roller bearings and the hub interior, and 0 2 -14- an oil relief port extending across the wall of the flange to communicate between the interior cavity of the spring seal and the exterior, which oil relief port engages a tube feeding from a lubricant reservoir.

6. An assembly according to any one of the preceding claims wherein said reservoir comprises a liquid lubricant tube connected to said port.

7. An assembly according to claim 6 wherein said tube is connected with a substantially fluid-tight container.

8. A submersible wheel bearing assembly substantially as described herein with reference to the accompanying drawings. o on Q a 94n 4040 oo no o 0 o 4 4 4 DATED this 11th day of May, 1990. 4 4 0u04 04~ 44 0 4 44 44 4 444B 4 44r o 4o BARRY FREDERIC RYAN Patent Attorneys for the Applicant: PETER MAXWELL ASSOCIATES /com/88 1 020