US3603364A

US3603364A - Liquidizer jar with removable cutter unit

Info

Publication number: US3603364A
Application number: US872032A
Authority: US
Inventors: Maurice P Samuelian; George E Sachse Jr
Original assignee: Dynamics Corp of America
Current assignee: Dynamics Corp of America
Priority date: 1969-10-29
Filing date: 1969-10-29
Publication date: 1971-09-07
Anticipated expiration: 1988-09-07

Abstract

Liquidizer with unitary cutter assembly for sealing a large opening in the bottom of a jar. The cutter assembly is readily removable through the top of the jar for cleaning and includes two telescoping members forming a housing, one of which is a stainless-steel-bearing retainer enclosing and supporting the bearing and cutters and one of the clutch members of a resilient disengageable drive member. A disc nut receivable over the driven clutch member in working position releasably engages the hub of the housing to draw the stainless steel bearing retainer downwardly resiliently to seal the large opening with a selfcentering gasket molded marginally to the retainer engaging a narrow flange bordering the opening.

Description

United States Patent Inventors Maurice lP. Samuelian E4 Smm mm NH Wmm MA I l P "H C H" E mm wT M AN m hP .m mm i KK m 5 Uww mm mm mm M m m man WGCS o N P D. A

Primary Examiner-Willie Gr Abercr'ombie Attorney-Harbaugh and Thomas [22] Filed Oct. 29,1969

l45] Patented Sept. 7, 1971 [73] Assignee L. M e a 5m 8 08.1 91% y He m e m SC e a r r k e r h ua C Jf ABSTRACT: Liquidizer with unita ing a large opening in the bottom ofa is readily removable through the top 0 and one of the clutch members 14 Claims, 7 Drawing Figs.

0 ageable drive member A disc nut receivae over the driven clutch member in worki n ee .waw m .n mn m e a m hanm tefiep W O ao ftm y O n 6 releasably engages the hub of the housin steel bearing retainer downwardly resili opening with a self-centering gasket molde retainer engaging a narrow flange bordering the m MS m cm n U .mF H m 5 55 PATENTEU SEP 7192:

SHEET 1 [IF 2 um sa- IN VE/VTORS; MAUR/CE E SAMUEL/AN GEORGE E. SACHSE, JR. 5%

M Afforneys PATENTEU SEP 7 ml SHEET 2 OF 2 5 G I F //V VEN TORS: MAURICE I? SAMUEL IAN GEORGE E. SACHS JR. BM

f MW

A from e ys LIQUIDIZER JAR WITH REMOVABLE CUTTER UNIT CROSS REFERENCES Applications;

Emmons and Samuelian--Ser. No. 850,182; Gordon H. Raymond-Ser. No. 780,131; Roy L. SwankeSer. No. 780,103;

Roy I... Swanke-U.S. Pat. No. 3,319,938.

BACKGROUND OF THE INVENTION Liquidizer containers for home use are generally provided with a vertical shaft in the bottom carrying high-speed cutters and have convoluted walls to return the swirling contents to the center of the container. The containers are generally tall enough above the cutters to prevent a user from inadvertently manually contacting the cutters during operation and with this height it can be quite difficult to thoroughly clean the foodcontacted parts.

There are two types of containers, one, a two-piece container having a threaded connection below the level of the cutters that are joumaled in the base. When disconnected, the base and upper portions can be easily cleaned separately and provided with a safety clutch.

The other type is a container in which the jar portion and bottom closure portion are molded integrally and a small opening in the bottom opening receives the bearing of the cutter shaft such as represented by Swanke et al. US. Pat. No. 3,319,938. Generally, however, the cutter assemblies are usually clamped in place by hexagonal nuts by a wrench which makes the removal of the assembly a service problem. Either the driven clutch member or the cutters have to be dismantled before the rest of the cutter assembly can be withdrawn and then clutch alignment becomes a problem when reassembled which can be compounded by removability looseness between the jar and the liquidizer housing. To avoid the problems of removing the cutter assembly, a downwardly opening cavity on the bottom conceals the driven clutch member and an upwardly and outwardly flared jar wall is provided which makes it possible to reach the cutters in situ at the bottom of the container.

Moreover, casting a radially wide flange near the bottom of the container to provide the necessarily small opening to receive the cutter bearing for alignment purposes provides some difficulty in economically producing the container. Furthermore, the rigid mounting of the cutter bearing for alignment purposes induces some noise and vibration in the working parts which would induce the hammering of the hearing journal.

SUMMARY OF THE INVENTION torn opening restricting access that is required to provide accessibility for cleaning the cutters solely from the top.

' Moreover, preassembly of the cutter mechanism can be made before handling the container and ultimate clutch alignment assured when assembled. The assembly of the cutters, shaft, bearing and driven clutch members are removable as an undisturbed unit which for safety reasons need not be disturbed and cannot be placed back on the power unit without the unit being protectively located in the container. The container may be substantially cylindrical or slightly widened at the top and is provided with a large bottom opening in which the cutter assembly can be easily inserted and fastened from the bottom in sealed relationship for release and removal through the top when it is desired to clean the cutters and container. Also for cleaning the container the interior of the container can be easily reached through both the top and bottom opening for thorough cleaning by a dishwasher or manually by a brush in a sink.

The cutter assembly is resiliently clamped in position by a removable disc nut which is easily removed and seeks a centering position by a tightening rotation in that it has a wide span for easy finger-twisting leverage which does not tend to radially displace the assembly while being reinstalled. The cutter assembly is not only sealed by a self-centering gasket molded to a stainless steel bearing retainer for cleanliness in a simplified cast container, but the radius of the disc nut assures squared alignment and there is an appreciable resiliency in the assembly cooperating with a large radius elastomeric drive coupling to provide vibration-free and quiet clutch operation of great longevity with the disc nut capable of some repositioning yield if a vibratory tendency develops.

Pragmatically, the quick assembly of the cutter unit on the container is readily apparent from the shapes and sizes of the two parts involved because the driven clutch member over which the disc nut is received is essentially hourglass-shaped in one of the embodiments and the opening in the disc nut through which it is received is similarly shaped whereby the proper orientation is suggested and includes diametrically spaced tabs, or, the nut can have a coarse-threaded full-size opening clearing a circular clutch member and operate either as a male or female nut. Cam-shaped clamp ears that slip over the lower end of the bearing engage, with a twisting motion, bayonet-point-type detents embossedl in the wall of the bearing retainer member. The release of the nut can be accomplished from the bottom of the upturned container for the dirty cutter assembly to drop out, if desired, after said hourglass configurations are aligned. Otherwise the top opening of the container is large enough to receive a hand supporting the cutter assembly while the disc nut is assembled or dismantled. The opening in the bottom of the container is large enough for the housewife to see what she is doing and have adequate access when washing or assembling the liquidizer container. The cloverleaf shape of the cavity on the bottom of the container provides open lobes which clear the fingers of a. person tightening or loosening the nut with fingertip control. 7

DESCRIPTION OF THE DRAWINGS FIG. 1 is a fragmentary perspective view, partly in section, of a liquidizer embodying the invention.

FIG. 2 is an exploded, fragmentary sectional view of an embodiment of the invention illustrating the dismantled elements of the removable blade assembly.

FIG. 3 is a sectional view taken on line 3-3 of FIG. 1 showing the assembled relationship of the elements shown in FIG. 2.

FIG. 4 is a bottom plan view showing the clearance relationship between two of the elements shown in FIG. 2.

FIG. 5 is a bottom plan view of another embodiment of the invention.

FIG. 6 is a sectional view taken on line 6-6 in FIG. 5.

FIG. 7 is a sectional view similar to FIG. 6 showing another embodiment of the invention.

THE PREFERRED EMBODIMENTS Referring now to FIG. 1, a cross-sectionally cloverleafshaped liquidizer container 10 embodying the invention is shown as received, in working position on a power unit 12. The power unit includes a housing 14 with a series-wound motor (not shown) supported therein having a drive shaft 16 extending upwardly in a working position concentric with angularly spaced lugs 18 which support the container nonrotatively thereon. The speed of the motor and drive shaft 16 is controlled by a multiple pushbutton switch 11 having buttons 15 and a jogger 17 mounted on the control panel 19.

The drive shaft supports the drive member 20 of an axially disengageable clutch drive having a wide radius construction. In the embodiment shown six hexagonally arranged axially extending resilient lugs 22 have driving faces 24 normal to their plane of rotation and their trailing faces 26 inclined for ease of engagement by the axially disengageable driven member 28. The six lugs 22 provide six available drive faces 24 equally spaced 60 angularly, and for further description of their operation reference is made to Raymond, Ser. No. 780,131

The driven member 28 shown in FIGS. 1-4 is a rigid member having four radiating spokes 29 forming an X" configuration with a 60 angle between adjacent spokes of two pairs with the two outer ends of each pair joined by arcuate elements 30 comprising 60 segments of a circle whose diameter is larger than the overall diameter of the lugs 22. The arcuate space between the pairs of spokes is 120 and are peripherally open whereby the geometric configuration in plan view is essentially an hourglass shape. This provides four resilient drive contacts for the driving lugs 22 without materially weakening or changing the drive characteristics described in the Raymond application where six drive contacts are incorporated as also shown in FIGS. -7 herein, but it does provide a characteristic shape of circumferentially varying radii which indicates the relative orientation between the driven member and the opening in a disc nut 40 later described, which is received thereapart.

The container may be molded of glass or plastic to the shape shown as characterized by a jar construction in which the upper mixing chamber 32 (FIG. 2) is separated from a lower transmission cavity 34 by a bottom having a narrow flange 36 defining an opening 38 larger than the major diameter of the driven member.

As viewed in FIG. 2 the unitary cutter assembly 42 is removably mounted in the opening 38 on the narrow flange 36 as assembled in its operative position. The cutter assembly comprises a sintered sleeve bearing 44 journaling a driven shaft 46 that receives the driven clutch member 28 on its lower end with a running washer 48 therebetween. On its upper end the shaft is threaded and receives the conventional cutters 50 rotated thereby and a running washer 52 that are held in place by an acorn nut 54. A sleeve 56 of sheet metal approximately 0.015 inch thick is die-shaped to be received tightly over one end of the bearing 44, preferably the lower end, and a second member having a sleeve portion 58 is pressed over the first sleeve with interference engagement to cover the end of the bearing whereby they are secured permanently together in sealed relationship.

Preferably, the upper one of the sleeves is stainless steel and a flared skirt 60 is integrally formed with one of the sleeves which terminates in a rim 62 that overhangs the inner edge 38 of the flange 36 and has molded to it a resilient gasket member 64 which fills and preferably is bonded to the rim 62 of the skirt and has an axially directed flange 66 received in the opening in guided relationship.

The lower sleeve portion 56 can have embossed upon its exposed surface, as shown, a heavy thread means 68 which can have a full 360 turn or preferably a segmented male thread or detents similar to a bayonet point. Cooperating with these male elements is the disc nut 40 of sheet metal whose center is stamped out (FIG. 4) to provide an hourglass opening 70 which slips past the hourglass shape of the driven member 28. The disc nut can be threadedly formed centrally as at 72 to mate with the thread means 68. As shown in FIGS. 3 and 4 the "hourglass shape provides inwardly extending tongue portions '74 which provide an opening 76 receiving the bearing 44 and the inner edgesare stamped with female segments 78 to engage the th reads 68 with an upward thrust when tightened. This engagementis released with a counterclockwise twist of the disc nut.

Marginally, the disc nut 40 is provided with an axial flange 80 which is offset upwardly at its base to provide a bearing rim 82 and is sinuously formed marginally at 84 to provide finger grips for manipulating the nut to tighten or loosen it. The bearing rim 82 slidably engages the lower face 86 of the flange 36 for corrective alignment movement when being tightened which is characteristic of a rim engaging a flat surface. The rim can be provided on either element with the flat surface on the other as long as the circular land is located radially outwardly of the opening 38 so that the greatest resiliency possible is provided in the disc nut 40 for tightening and a bearing edge is provided which does not become fouled with use.

A circular axially extending flange 90 is molded on the upper face of the flange 36 which engages in a mating groove 92 formed in the lower face of the gasket 64 when the guide flange 66 is formed while the gasket is preferably being bonded to the rim 62. Thus, the bearing 44, shaft 46 and driven member 28 are locate with an appreciable degree of resiliency in the container in relation to the engagement between the flange 66 in the opening 38 and the nesting of the rim 90 and groove 92 and the disc nut if slightly off center can resiliently shift to accommodate coaxial drive engagement of the drive and driven member.

Referring to FIGS. 6 and 7 embodiments are illustrated wherein a full-circle large radius driven member 28A is accommodated in that the threaded relation 68A and 68B have a diameter greater than that of the driven member. Although the larger thread diameter removes an appreciable amount of the useful resiliency that is present in the expanse of the central portion of the disc nut 40, it will be observed that the threaded relationship is more directly involved with the inner surface 94 of the gasket 64 as at 94A and 94B in FIGS. 6 and 7 respectively. In FIG. 6 the disc nut AOA has a cylindrical portion 74A which is guided and positioned by the inner wall 94A of the gasket for the coaxial orientation described, whereas in FIG. 7 the inner surface 94B engages an external circular surface on an integrally formed bearing shield 56B.

In providing this the central portion of the flared skirt 60A is offset upwardly as at 58A to provide a cylindrical wall portion having an internal coarse thread 68A thereon engaged by the male thread on the disc nut 40A. A tightening of the disc nut 40A preferably mildly compresses the material of the gasket 64A against it and the diaphragm effect of the planar portion 58A flexes for axial alignment of the drive and driven

members

20 and 28.

In FIG. 7, the two sleeves 56 and 58 of FIG. 2 are integrated as by casting or machining to provide a smooth external surface that is free of any joints or crevices and has a downwardly extending cylindrical flange 102 against the base of which the gasket 64 is molded and the outer end of which is externally threaded to be engaged by the threaded end 104 of the disc nut 403. In this instance the upper end of the disc nut 408 can be by the gasket 64 if desired and some compressive pressure thereon can be provided on the flange portion 66 as the disc nut is tightened.

It will be noted that in the three embodiments illustrated, the upper ends of the bearing covering 56 are rounded inwardly as at 106 to provide end stops when pressing the bearings 44 in place and the upper end run in sealing contact with the upper washers 52 there generally being a downward force on the cutters as they centrifugate and force the container contents upwardly along the sides of the bowl.

Also it will be observed that the lobe enlargements 27 in the bottom cavity 34 of the container permit the finger gripping of the disc nut 40 in the several embodiments but rotation of the nut is limited each time the nut is finger-turned because there is no finger clearance between the nut and wall of the bowl in the throat portions interconnecting the lobes (FIGS. 3 and 5). This limits the degree of turning each time so that no lateral strain is placed by an awkward position of a persons hand turning more than approximately 45 each time.

When removing the unitary cutter assembly for cleaning, the sinuous flange 80 is gripped by thumb and forefinger and twisted in counterclockwise direction to loosen and release the disc nut. It is brought into passing coincidence with the driven member and dropped downwardly past the driven member whereupon the released cutter assembly is lifted out as a unit through the upper end of the jar. An alternate way may be followed by the user upon occasion. If the cutters are covered with a sticky material, the jar can be inverted over a sink of water, the disc nut released and moved to let the cutter assembly drop freely into the water without being manually touched until clean. The driven mechanism stays intact at all times and the container can be washed by scrub brush from both ends manually or in a dishwasher depending upon the material of which the container is made.

Accordingly, it will be observed how the objects and results are attained and the'characteristics set forth are provided, it beingappreciated that the threaded relationship can be of different diameters and how either sleeve can be provided with the skirt or formed integrally for the purposes set forth.

What is claimed is:

l. in a liquidizer, the combination of a power unit carrying a rotary drive clutch element at the top thereof and means to support containers concentrically therewith,

a container for releasably engaging said rotatable drive member comprising a bottom wall having a flange defining an opening therein and dividing the container into an upper liquidizing chamber and a lower transmission cavil,

a unitary cutter assembly removably mounted in said opening including a bearing extending through said opening,

a shaft journaled in said bearing carrying rotatable cutters at the top thereof receivable in the liquidizing compartment and a driven clutch element at the bottom thereof axially engageable with said drive clutch element;

sleeve means tightly received on said bearing over one end of the bearing and an element supporting said sleeve means for closing said opening comprising a flared skirt portion marginally terminating in a rim,

a resilient gasket molded to the skirt. portion within said rim and having an axial flange received in said opening in guided relationship,

said bearing supporting means having downwardly accessible threads thereon disposed above said driven clutch element, and

disc nut means received over said driven clutch element threadedly engaging said threads and marginally provided with an element engaging said flange and including manually engageable means to tighten and loosen said nut means.

2. The. liquidizer called for in claim 1 in which said nut member threadedly engages said sleeve means in releasable relationship over a circular area greater than the axially projected area of said driven member.

3. The liquidizer called for in claim 1 in which said nut member has a resilient central portion rotatably engaging said sleeve means over a circular area less than the axially projected area of said driven element,

said resilient central portion having an opening shaped and of a size to pass said driven member therethrough.

4. The combination defined in claim 1 in which said. drive clutch element axially engages said driven clutch element and has a major dimension at least the diameter of said driven clutch element and a minor radial dimension less than that of said opening.

5. The combination defined in claim 3 in which said opening is greater than the size of the driven clutch element,

the major diameter of the cutter is greater than said open ing, and

the major dimension of the releasable means is greater than said opening and includes finger-engageable means for tightening and releasingit.

6. In a motor-dirven liquidizer, a container with a bottom wall having a flange defining an opening therein and dividing the container into an upper liquidizing chamber and a lower transmission cavity,

a unitary cutter assembly removably mounted in said opening comprising a bearing and shaft joumaled therein, means supporting said bearing in sealed relationship includsleeve means tightly received on said bearing over one end of the bearing and a flared skirt portion carried by said sleeve means marginally terminating in a rim for closing said opening,

a resilient gasket molded to the skirt portion within said rim and having an axial flange received in said opening in guiding relationship,

said bearing supporting means having downwardly accessible threads thereon, and

nut means threadably engaging said threads and marginally provided with an element engaging said flange and ineluding manually engageable means to tighten and loosen said nut.

7. The combination called for in claim 6 in which said sleeve means comprises telescoping sleeves enclosing said bearing,

one of said sleeves having a flared skirt portion marginally overhanging the flange.

8. The combination called for in claim 6 in which said cavity defines a nonuniform diameter providing lobular spaces affording finger access to said disc unit and narrow throat portions between said lobular spaces.

9. The combination called for in claim 6 in which said nut means has an element in close proximity to said axial flange.

10. The combination called for in claim 6 including drive and driven clutch members, one of which has resilient elements interengaging the other member and one of said sleeve means and nut means includes a resilient portion cooperating with said gasket and resilient clutch elements for centering the drive and driven clutch member with respect to each other.

11. The combination called for in claim 6 in which said flange has an axially extending flange on its upper face concentric with said opening, and

said gasket has a groove on its lower face mating with said axial flange and disposed concentric with said shaft.

12. A liquidizer comprising:

a power unit carrying a rotary drive clutch element at the top thereof,

a container comprising a bottom wall having a flange defining an opening therein and dividing the container into an upper liquidizing chamber and a lower transmission cavity,

bearing means extending through said! opening,

a. driven shaft journaled in said bearing means, carrying rotatable cutters at the topthereof receivable in the liquidizing compartment and a driven clutch element at the bottom thereof axially engageable with said drive clutch element,

sleeve means secured to the bearing means in supporting relationship and having a skirt portion marginally over hanging the edges of said flange,

gasket means between said skirt portion of said flange, and

having a guide flange received in said opening,

resilient means releasably interconnecting said sleeve means and said flange for compressing said gasket means in sealing relationship and support said bearing means,

said resilient element having an opening through it shaped and large enough to pass the driven element axially therethrough and upwardly through said opening.

13. The liquidizer called for in claim 12 in which said resilient means threadedly engages said sleeve means in releasable relationship above said driven clutch element over a circular area greater than the axially projected area of said driven element.

14. A liquidizer comprising:

a power unit carrying a rotary-drive clutch element atthe top thereof and means to support a container in'concentric relationship therewith,

a container releasably engaging said. support means comprising a bottom wall having a flange definingan opening. therein" concentric with said support means and dividing the container into an upper liquidizing chamber and a lower transmission'cavity,

bearing means extending through said. opening,

a shaft joumaled in said bearing means carrying rotatable cutters at the top thereof receivable in the liquidizing compartment and a driven clutchelement at the bottom thereof disposed in said cavity and axially engageable with said drive clutch element,

sleeve means secured to the bearing means in supporting relationship andhaving a skirt portion marginally overhangingthe inner edges of said flange,

ing the wall of said opening and the other member engaging a face of the flange around said opening,

said nut member having an opening through it shaped and large enough to pass the driven element axially therethrough and upwardly through said opening.

Claims

1. In a liquidizer, the combination of a power unit carrying a rotary drive clutch element at the top thereof and means to support containers concentrically therewith, a container for releasably engaging said rotatable drive member comprising a bottom wall having a flange defining an opening therein and dividing the container into an upper liquidizing chamber and a lower transmission cavity, a unitary cutter assembly removably mounted in said opening including a bearing extending through said opening, a shaft journaled in said bearing carrying rotatable cutters at the top thereof receivable in the liquidizing compartment and a driven clutch element at the bottom thereof axially engageable with said drive clutch element; sleeve means tightly received on said bearing over one end of the bearing and an element supporting said sleeve means for closing said opening comprising a flared skirt portion marginally terminating in a rim, a resilient gasket molded to the skirt portion within said rim and having an axial flange received in said opening in guided relationship, said bearing supporting means having downwardly accessible threads thereon disposed above said driven clutch element, and disc nut means received over said driven clutch element threadedly engaging said threads and marginally provided with an element engaging said flange and including manually engageable means to tighten and loosen said nut means.

2. The liquidizer called for in claim 1 in which said nut member threadedly engages said sleeve means in releasable relationship over a circular area greater than the axially projected area of said driven member.

3. The liquidizer called for in claim 1 in which said nut member has a resilient central portion rotatably engaging said sleeve means over a circular area less than the axially projected area of said driven eleMent, said resilient central portion having an opening shaped and of a size to pass said driven member therethrough.

4. The combination defined in claim 1 in which said drive clutch element axially engages said driven clutch element and has a major dimension at least the diameter of said driven clutch element and a minor radial dimension less than that of said opening.

5. The combination defined in claim 3 in which said opening is greater than the size of the driven clutch element, the major diameter of the cutter is greater than said opening, and the major dimension of the releasable means is greater than said opening and includes finger-engageable means for tightening and releasing it.

6. In a motor-dirven liquidizer, a container with a bottom wall having a flange defining an opening therein and dividing the container into an upper liquidizing chamber and a lower transmission cavity, a unitary cutter assembly removably mounted in said opening comprising a bearing and shaft journaled therein, means supporting said bearing in sealed relationship including sleeve means tightly received on said bearing over one end of the bearing and a flared skirt portion carried by said sleeve means marginally terminating in a rim for closing said opening, a resilient gasket molded to the skirt portion within said rim and having an axial flange received in said opening in guiding relationship, said bearing supporting means having downwardly accessible threads thereon, and nut means threadably engaging said threads and marginally provided with an element engaging said flange and including manually engageable means to tighten and loosen said nut.

7. The combination called for in claim 6 in which said sleeve means comprises telescoping sleeves enclosing said bearing, one of said sleeves having a flared skirt portion marginally overhanging the flange.

11. The combination called for in claim 6 in which said flange has an axially extending flange on its upper face concentric with said opening, and said gasket has a groove on its lower face mating with said axial flange and disposed concentric with said shaft.

12. A liquidizer comprising: a power unit carrying a rotary drive clutch element at the top thereof, a container comprising a bottom wall having a flange defining an opening therein and dividing the container into an upper liquidizing chamber and a lower transmission cavity, bearing means extending through said opening, a driven shaft journaled in said bearing means, carrying rotatable cutters at the top thereof receivable in the liquidizing compartment and a driven clutch element at the bottom thereof axially engageable with said drive clutch element, sleeve means secured to the bearing means in supporting relationship and having a skirt portion marginally overhanging the edges of said flange, gasket means between said skirt portion of said flange, and having a guide flange received in said opening, resilient means releasably interconnecting said sleeve means and said flange for compressing said gasket means in sealing relationship and support said bearing means, said resilient element having an opening through it shaped and large enough to pass the driven element axially therethrough and upwardly thrOugh said opening.

14. A liquidizer comprising: a power unit carrying a rotary-drive clutch element at the top thereof and means to support a container in concentric relationship therewith, a container releasably engaging said support means comprising a bottom wall having a flange defining an opening therein concentric with said support means and dividing the container into an upper liquidizing chamber and a lower transmission cavity, bearing means extending through said opening, a shaft journaled in said bearing means carrying rotatable cutters at the top thereof receivable in the liquidizing compartment and a driven clutch element at the bottom thereof disposed in said cavity and axially engageable with said drive clutch element, sleeve means secured to the bearing means in supporting relationship and having a skirt portion marginally overhanging the inner edges of said flange, a gasket member between said overhanging skirt portion and said flange to seal the space between the marginal edge of said skirt portion and said flange, a disc nut member releasably interconnecting said sleeve means and said flange for compressing said gasket means in sealing relationship and to support said bearing means, one of said members having a flange concentrically engaging the wall of said opening and the other member engaging a face of the flange around said opening, said nut member having an opening through it shaped and large enough to pass the driven element axially therethrough and upwardly through said opening.