US2368586A

US2368586A - Tumbling machine

Info

Publication number: US2368586A
Application number: US389633A
Authority: US
Inventors: Vetorino John Enos
Original assignee: CONTINENTAL MACHINERY CO Inc
Current assignee: CONTINENTAL MACHINERY Co Inc
Priority date: 1941-04-18
Filing date: 1941-04-18
Publication date: 1945-01-30
Anticipated expiration: 1962-01-30

Description

J. E. VETORINO TUMBLING MACHINE Filed April 18, 1 941 7 Sheets-Sheet 1 MEWTOR John E. Veforinq ATTORNEY '7 Sheets-Sheet 2 H -L.i 2

vzWEvwR I John E. Veforino BY M 6 r ATTORNEY -Jan. 30,'1945. J. EQVETORINO TUMBLING MACHINE Filed April 18, 1941 7 Sheets-Sheet 4 Jan; 30, 1945. VETORINO 2,363,586

mum MACHINE Filed April 18, 1941 7 Sheets-Sheet 5 Jan. 1945- J. E. VETORINO 2,368,586

, TUMBLING MACHINE Filed April 18. 1941 7 Sheets-Sheet 6 Jan. 30, 1945- J. E. Veronmo 2,368,535

' mmum ucunua Filed April 181 1941 7 Sheets-sheaf Fig.1);

Patented Jan. 30, 1945 UNITED STATES PATENT OFFICE TUMBLING MACHINE John Enos Vetorino, Fairhaven, Mass., assignoi;

to Continental Machinery 00., Inc., New Bedford, Mass., a corporation of Massachusetts Application April 18, 1941, Serial No. 389,633

29 Claims.

. been used from time to time for lengthening the reach of a mans arm into the cylinder, but they have not usually been satisfactory.

An object of the invention is to provide a new and improved automatically unloading mechanism, particularly for use with an open-ended machine.

With this object in view, a feature of the invention contemplates the provision of a new and improved'chute that may be removably inserted into the inner cylinder of the machine, at the end of the operation of treating the contents thereof, to enable discharging or unloading the contents.

Other and further objects will be explained hereinafter and will be particularly pointed out in the appended claims.

The invention will now be more fully described in connection with the accompanying drawings, in which Fig. 1 is a view, partly in side elevation, partly in vertical longitudinal section, and partly in transverse section, of a tumbling machine of the above-described character, the longitudinal section being taken upon the line I-l of Fig. 2, looking in the direction of the arrows, the chute being removed, and the end doors of the inner cylinders being shown closed; Fig. 2 is a vertical transverse section taken upon the line 2-2 of Fig. 1, looking in the direction of the arrows, also with the chute removed; Fig. 3 is an end elevation of one of the inner cylinders or drums, the view being taken from the open end of the cylinder, and showing the removable chute in place above the goods contained in the cylinder; Figs. 4 and 5 are respectively side and end elevations of. the preferred chute; Fig. 6 is a view similar to Fig. 3, but showing the chute commencing its unloading operation; Fig. 7 is a view of a detail, upon a larger scale, showing the small end of the chute held in place; Fig. 8 is a view similar to Figs. 3 and 6, showing the chute in its final unloading position, with the contents of the cylinder sliding from the chute into a t: uck, illustrated in dotted lines; Fig. 9 is a fragmentary longitudinal section similar to Fig. 1,

taken upon the line 99 of Fig. 8, looking in Ill) the direction of the arrows, with the chute in place, in a position corresponding to that of Fig. 8, showing the contents of the cylinder sliding through the opening in the outer end wall thereof into the truck; and Figs. 10, 11 and 12 are views, upon a larger scale, of details of the machine illustrated in Fig. 1.

As in application, Serial No. 281,255, filed June 26, 1939, now Patent 2,360,377, entitled Washing machine, of which the present application is a continuation-in-part, a machine is shown, provided with an upright outer closed, stationary, generally cylindrical, casing or housing having a centrally disposed sectionlO, bounded by oppositely disposed end walls l6 and I1. Axially alined cylindrical end-section chambers 5 and 6 for containing a washing, degreasing or other fluid are disposed at the respective ends of the centrally disposed section, the end-section chamber 6 beyond the wall l6 and the end-section chamber 5 beyond the wall H.

The walls l6 and I! are respectively secured to the end sections 6 and 5. Circular or cylindrical angle-iron reinforcing rings or bands ll, L-shaped in cross section, are welded throughout to the respective walls l6 and H of the end sections 5 and 5, in axially alined relation thereto. Gaskets (not shown) may be interposed between the iron rings I I and th walls I6 and I1, respectively, to render th joints tight. Circular or annular bolting-ring members 202 are welded along their inside edges to the inner surfaces of the centrally disposed section II). Weld joints are shown in the drawings black.

The centrally disposed section II) is illustrated as further provided with a lower side-segment portion l2, of rectangular cross-section, that is secured, in any desired way, as by welding, to a base 15 by which the centrally disposed section In is thus directly supported. The side segment I2 is secured, as by welding 4, to the annular members 202 which, in turn, support the side walls I 6 and I1. The end sections 5 and 6 are supported directly by portions l4 and I3, respec through sealed openings in the walls l6 and I1,

respectively beyond these walls, into the respective end sections 8 and 5.

Inner perforated tumbling drums or cylinders l8 and IQ, for containing materials to be washed, degreased or the like, are respectively fixed to the outer ends of the shafts 28 and 30. The cylinder I8 is thus axially journaled to rotate with the shaft 29 in the end section 6 of the housing, and the cylinder i9 is axially journaled to rotate with the shaft 3% in the end section 5 of the housing. The cylinders are thus axially alined, and each is provided with an inner end wall 39 and an outer end wall 50. As will be more fully explained hereinafter, the outer ends of the

shafts

29 and 30 are fixed to the respective cylinders I8 and H9 at their innerend walls 39.

The inner end of the shaft is shown in Fig. l disposed within a split hub 23. The inner end of the shaft is similarly shown disposed within another split hub 28 that is alined with the first-named -split hub 23. The alined split hubs Z3 and 2B are secured together into a unitary hub structure by means of bolts passing through pairs of alined bolt openings 25, on opening 25 of each pair in each of the split hubs 23 and 28. After the alinedshafts 28 and 39 have been mounted in this unitary split-hub structure 23. 28, with their inner ends adjacently disposed. they are securely fastened therein in any desired manner, as by means of bolts extending through alined bolt openings $1 in the ends of the respective split hubs 23 and 28. To guard against accidental rotation of the

shafts

29 and 30 in the hubs 28 and 28, a. key I may be inserted in splines 31 in the shafts and corresponding splines 2 in the hubs. p

The shafts 29 sandal! become thus rigidly coupled together intermediately between the cylinders l8 and is to rotate as a unitary shaft in single shaft, is to facilitate disassembly, for purposes of repair. The rotation of the shaft 29. all may be effected by means of a driving gear wheel 27 that is fixed to the unitary-hub structime 23, 28 so as to rotate between the bearings 8i and 32. The gear 21 is shown as driven from an electric motor 25, mounted upon a non-cylindrical upper portion 29 of the centrally disposed housing section Iii. Through belts 22, the motor 2i drives a pinion 25 that, mountedupon a drive shaftfl, meshes with the gear 21.

Rotation of the driving gear 2! by the motor 2! is thus communicated, through the

unitary shaft

29, 30, to the inner cylinders l8 and i9, which are thuslikewise rotated in unison. The machine is thus'in perfect balance, each cylinder T8 or 15 serving as a coimterweight for the assume to carry a load of from seven hundred to a thousand pounds each. It is accordingly possible to provide these outer walls each with an axially disposed circular discharge opening 4|, and the outer walls of the end sections 5 and 6 each with a concentrically disposed axially alined discharge opening l2. The hides, skins, laundry and the like may be inserted into the respective cylinders l8 and I9, and removed therefrom, through the two pairs of alined registering openings or orifices t2 and M. The washing, degreasing or other fluid in the end sections 5 and 6 may enter the cylinders l8 and I9 through their perforations and through their openings 4 I.

Each opening 42 may be closed, during the ,operation of the machine, when the contents of the cylinders are tumbled, by a frusto-conical door 44, hinged at one side, and provided with means for holding it securely in place at its other side. An annular projection in each opening 42 is adapted to engagea compressible ring seal that is disposed in a circular recess in each door as. Each door 64 is provided, along its periphery, with a cylindrical projection 5| that, when the door is closed, is disposed in a cylindrical projection 58 mounted correspondingly along the periphery of the corresponding opening GI.

In order that the cylinders l8 and i9 may be enabled the better to carry the heavy loads contained therein, without destroying their balance, and without the necessity for employing any additional bearings at 'theouter endsof the cylinders, it is desirable to reinforce their inner end walls 39. As these end walls 39 are duplicates, it will sumce to describe one only. Ac-

cording to the specific embodiment of the invention that is illustrated and described herein, each end wall 39 is reinforced by a circular spider lilfl that is held securely thereagainst by rivets NH. This spider comprises radially disposed reinforcing T-beams Hi2 that are welded at their outer ends to the inner walls of an outer ring I84 and at their inner ends to the. outer walls of a concentrically disposed inner bushing I06. The T- beams are shown in Fig. 1 adjacent to walls 39.

Six such T-beams may be employed, with adjacently disposed T-beams reinforced by connecting L-beams. The bushing IDS is welded to the inner ends of the T-beams I62, both directly. and also through the medium of an annulus H0. Radially disposed lugs'or fins H3 are welded to the T-beams m2 at the faces thereoffopposite to the faces that carry the legs of the T's, and

end sections 5 and E with bearings for such such shafts, and this even though the cylinde s may be of considerable size, say, suihciently large also to the outer surface of the bushing Hill- The lugs H3 are shown in elevation in Fig. l. The

shafts

29 and 30 are shown each extending through two annuli m and IE8 that are welded to the inner walls of the respective bushings .896.

The outer end of each bushing WE extends into an inset or re-entrant portion H2 of the wall dathat is shaped frusto-conically to receive the fins "3. The smaller base of the frustum is flat to receive the outer end of the bushing 1'06 and the abutting outer end of the

shaft

23 or 30 that is disposed therein, as hereinaftermore fully described. A fitting R8,, provided with a longitudinally extending opening, for cooperatingv with an unloading chute, as hereinafter more fully described, extends through arr-opening in the smaller flat base of the re-entrant frustum portion 2 and into the outer end of the shaft 28 or 38. I.

' The-inner end'of the bushing E85 is secured. as by welding, to an annulus tit, to which is welded a flange lid. The inner diameter of the II 8 through which the

shaft

29 or 30 extends, and

to which the

shaft

29 or 30 is secured in any de? sired manner, as by welding. The annulus H8 is reinforced by a number of ribs .I22 which may be welded both to the

shaft

29 or 30 and the annulus H8. The annulus H8 is detachably fastened to the annulus H4 in any suitable manner, as by means of machine screws or bolts I20. This detachability enables the parts to be readily separated, as for purposes of repair.

To disassemble the machine, the screws or bolts 8 and 9 are first removed. This makes it possible to remove the and sections 8 and 5 from the central section I 0, leaving the cylinders I8 and I9 intact on their shafts. It is necessary also to unbolt the split-hub structure 23, 28. Access to the central section I0'may be obtained, for this purpose, through doors 200. The cylinder I87and the shaft 29 upon which it is mounted may then be removed by pulling to the left. as viewed in Fig. 1. The cylinder I9 and the shaft 30 upon which it is mounted may similarly be removed by pulling to the right. Unscrewingof the bolts or screws I will make it possible to detach the shaft 29 and its annulus IIB from the cylinder I8. I

A bushing 36, disposed centrally of each of the walls I8 and I1, is rigidly secured thereto at its inner end, as by welding. An inwardly projecting annulus 35 is shown welded to the inner end of the bushing 36. The bearings 3| and 32 are each provided with a bushing I29, for housing bearing rollers I3I, and 'each having a flange I that abuts against an annulus 35. The flanges I30 are detachably secured to the annuli in any desired manner, as by means of bolts or screws I32. The manner in which the bearings are sealed is substantially the same as disclosed in the said application. The purpose of the seals, which are of circular shape, as shown. and are pressed into their respective housings, is toretain the grease and exclude dirt and other matter from the bearings. Each seal comprises a steel outer casing 206, an annular leather ring 208, and a steel spring 2I0 for maintaining a constant pressure of the leather against the shaft. The leather ring 208 is so constructed that the seals act also as stufling boxes to prevent the entrance of air during the hereinafter-described evacuation process. The end walls I6 and II of the centrally disposed sect on I0 are shown reinforced by means of webs 33 and 34 that respectively radiate from the bearings 3I and 32.

It is customary, in machines of this character, to provide more or less equally spaced, longitudinally disposed, cleats, shelves or baiiies that project a shortv distance interiorly into the inner cylinders from the cylindrical walls thereof. The baffles, preferably of U-shaped cross-section, are illustrated as of alternately large and small size, the large-size baflles I42 projecting'into the cylinder a greater distance than the small-size baflies I44. Each large baflie I42 is disposed diametrically opposite to a small baflie I44.

Let it be assumed that a large bailie I42 occupies its lowermost position. In this position, it will be effective to raise a load of skins. hides or laundry at the bottom of the cylinder. During the rotation of the cylinders'by the motor 2|, say, anticlockwise, as viewed in Fig. 2, this large baffle I42 will ride up along th right-hand wall of the cylinder to engage the skins, laundry or or other contents thereof. As it engages them. it

' Welded to the other end of the wall 68.

will raise them up. carrying them around along the inside of the cylinder. After they have risen to a height determined by the speed of the machine and the size of the bailles, they will drop back toward the bottom of the cylinder, on to the next adjacen-tly disposed smaller baflle I44. This results in tumbling the skins or the laundry, as a v consequence of which they become intimately admixed with different portions of the liquid contained therein.

Steam may be supplied to the liquid contained in the end sections 5 and I5, for heating the contents of the cylinders I8 and I9, through steam-inlet conduits or pipes I33 that are connected to heating jackets I34 and I36. The jacket I34 is shown provided upon the lower portion of theend section 6 and the jacket I38 on the lower portion of the end section '5. The jackets I34 and I36 are shown provided with drains 204.

The lower end of each of the walls I5 and I1 is provided with a shelf 65, supported by an up standingprojection 66. One of the projections 86 is .welded to one end of a lower wall 68, shown constituted of the upper wall of a cylindrical chamber I84. An L-shaped flange member I0 is The V L-shaped member I0 may be secured to the other projection 66 by bolts or the like 69, that may be removed for purposes of disassembly. A duct chamber I is thus provided under the right-.

hand, shelf 65, and to the right of the right-hand projection 65, as viewed in Fig. 1. and a duct chamber I82 is similarly provided under the lefthand shelf 65, and to the left of the left-hand projection 68. The chambers I80 and I82 are in' the form of rectangular boxes, welded in'place in suitable openings of the walls l8 and II. The outer vertical side walls of the chambers I 80 and I82 are shown at 2I2, the inner vertical walls are shown at 65, their upper walls are provided by the shelves 65, nd a continuous lower wall of the chambers is shown at 2I4. The chamber I80 communicates with the end section 5, the chamber I82 communicates with the end section 5, and the chambers I80 nd I 82 communicate with each other through the cylindrical chamber I84. The chamber I84 is in the form of a circular pipe, welded. as before explained, in a wall opening of the chamber I80, and bolted to a wall openingln the chamber I82. The chamber I80is connected with an outlet water drain or evacuating line I85 shown disposed laterally of the casing I0, adjacent to the bottom thereof, and the chamber I02 with a solvent drain I88 for both end sections. The chambers thus serve as a drain; and also to equalize the level of the liquids in the sections 5 and 6.

Water may be supplied to the end sections 5 and 6 through a water-inlet pipe I90, and the solvent and the emulsifier through a solvent-inlet pipe I92.

After the end sections 5 and 6 have been filled to the desired level, the skins or hides are tumbled by rotating the gear 21, to rotate the cylinders in their respective end sections, as before described.

After the hides or skins have been thus tumbled. and after the water and solvents contained in the end sections 5 and 8 have been drained, it is found advantageous to subject the hides or skins to the action of a vacuum. This may be effected,

, the doors 44 being closed at this time, by pumping out the air. The air may be pumped out of the end section 6 through a pipe I96. Under the tracted from the hides or skins, the closed end sections and 6 at this time constituting 'a drying chamber. As the hides or skins become cooled, in consequence, it may be desirable to add further heat during the evacuation, as by supplying steam to the jackets I34 and I36, or by introducing hot water into the end sections 5 and 6. One should be careful, however, not to supply so much heat as to injure the skins or hides. During this evacuating operation, the cylinders may be rotated, if desired; preferably, as during the tumbling, in the same direction continuously.

The vacuum in the end sections 5 and 6 may later be broken by admitting air through an air inlet valve I 98.

The size ofthe cylinders, in machines of this character, has heretofore been restricted, among other reasons, by the fact that their unloading has been performed manually. A workman can not reach with his arm very far into the cylinder to remove the contents thereof. According to the present invention, however, provision is made for unloading the cylinders automatically. This makes it po$ible to increase materially the size of the machine.

This unloading is effected with the aid of a 'novel removable unloading chute 41. The chute is more or less funnelor cone-shaped, having surfaces angulated with respect to the axis of the cylinder, and its axis substantially alined with the axis of the cylinder. In its preferred form. the funnel or cone is not circular in cross-section; the cross-section is of varying curvature. The curvature is sharper or greater along the bounding side element I56 than along the opposite bounding side element I66, and is of least sharpness in between; that is, the smallest radius of curvature is along the element I58, a larger radius of curvature along the element I68, and still larger radii of curvature in between. As clearly appears from the drawings, however, the radii of curvature are not the same at all points of the elements I58 and I66 and in between. For example, the radius of curvature at the end of the element I58 bounded by the smaller end I62 of the cone is smaller-than the radius of curvature at the outer edge I65. Also, the radius of curva-' ture at the end of the element I60 bounded bythe smaller end IE2 is less than the radius at the outer edge I66. For any cross section, however,

This construction renders the chute flatter in between the bounding side elements I58 and I68 than at these bounding elements. The chute is provided with a longitudinally disposed lip or shelf I63 along the bounding side element I60. for engaging a milk: I42, as presently'to be described.

I The smaller end I62 of the cone is provided with a perforated ear 53 that is adapted to be alined with the before-mentioned opening in the perforated plug I28. A pin I64, inserted through the perforated ear 53 and into the opening in the plug I28 at the axially inner end of the cylinder, will hold the chut in place in the cylinder, with the larger end I66 of the chute disposed in the opening 4| and engagingly supported by the lower wall of the opening 4|- Though thus held in place by the pin I64 and the said lower wall of the open action of this vacuum, the solvent is readily exing 4|, so :as to rotate with the cylinder, the chute is free to rotate axially of the cylinder about the pin I64. The concave side of the chute, when the chute is thus held in position by the pin I64. slopes or slants or tapers downward in an axially outward direction from the axially inner end of each cylinder near the car 53, toward the discharge openings 4| and 42.

Upon the completion of the treatment of the materials contained in the cylinders I8 and I9.

the motor' 2| is stopped, and the doors 44 are opened. The unloading chute 41, which is nor- -mally outside the cylinder during the tumbling operation, in order not to interfere with the tumbling, is then removably inserted into each cylinder through the openings 4| and 42, in the space above the contents of the cylinders, with the convex side of the chute upward, as illustrated in Fig. 3. The pin I64 is inserted through the opening in the ear 53, and the motor 2| is restarted. The shelf |63, it will be noted, is shorter, at the shoulder I65, than the bounding side I68. in order that the outer edge I66 of the chute may extend through the openings 4| and 42, while the shelf I63 is entirely within the cylinder, in engagement with a battle I42.

As the cylinder rotates, anti-clockwise, as

viewed in Figs. 3, '6 and 8, the lip or shelf I63 will at first rotate through a part revolution past a small baille I44. It-will, however, soon engage a large baiiie I42. It rotates past this small baiiie I44 because the lip or shelf I63 on the chute 41 is just long enough to engage with this'baflle I42, which is considerably longer than the bafiie I44. After this engagement with the large baiile I42, the chute 41 will rotate with the cylinder. In Fig. 3, the lip or shelf I63 is shown previously positioned in engagement with a large bafiie I42. The engagement of the bafile I42 by the shelf I63 will prevent further rotation of the chute with respect to the cylinder. During the further anticlockwise rotation of the cylinder by the motor 2|, therefore, the chute will be actuated, con-- cylinders I8 and I9, their contents will slide down- 7 along the chute 41, through the openings 4| and 42, and into a truck 52 that may be positioned adjacent to these openings 4| and 42.

After the cylinders have become thus automatically unloaded, the chutes may be removed therefrom, and the machine prepared for another operation.

It will be obvious that, since the cylinders I8 and I9 rotate as a unit, it will be necessary to use right-hand and left-hand chutes in the respective cylinders. One of these is shown in Figs. 3, 6 and 9 in the cylinder I9. If the chute shown in Fig. 9 were used in the cylinder I8. obviously its'convex side would be downward in Fig. 3, instead of its concave side. as illustrated.

What is claimed is:

1. A machine of the character described having, in combination, a cylinder interiorly provided with a baflle and having an end wall provided with an opening, means for actuating the cylinder, and means movable with respect to the cylinder and engageable with the battle during such movement for directing the contents of the cylinder toward the opening.

2. A chute having a relatively small end, a relatively large end, and bounding sides connecting the ends, the chute being provided at its relatively small end with an ear and having a lip along one of its bounding sides.

3. A machine of'the character described having, in combination, a cylinder having two end walls one of which is provided with an opening. means for rotating the cylinderaxially of the end walls, a chute for unloading the cylinder, the chute having a relatively small end and a relatively large end, and means for securing the chute in the cylinderwith the relatively small end attached to the other end wall.

4. A machine of the character described having, in combination, a rotatable shaft, means for rotating the shaft, a cylinder having a bafile and end walls one of which is provided with an opening, the cylinder being fixed to the shaft at the other end wall, a chute, and means for mounting the chute in the cylinder so that it is free to rotate relative to the cylinder, the chute having a. lip for engaging the baffle during the rotation of the cylinder to prevent its further rotation relative to the cylinder, thereby to enable the chute to unloadthe cylinder.

5. A machine of the character described having, in combination, a casing having a centrally disposed section and .an end section disposed at each end of the centrally disposed section, a bearing disposed in the centrally disposed section, a rotatable shaft journaled in the bearing with its ends projecting beyond the bearing, means supported by the centrally disposed section for rotating the shaft, a cylinder disposed in each end section, the cylinders each having two end walls one of which is open, the cylinders being fixed to the respective ends of the shaft at the other end walls to rotate with the shaft in the respective end sections, and removable right-hand and left-hand chutes disposed in the respective cylinders and rotatable with the cylinders for unloading the respective cylinders.

6. A washing machine comprising a housing, a horizontal shaft journalled on and extending at one side of said housing, motor means on said housing connected to turn said shaft, and a washing cylinder carried by said shaft at said side of the housing, said cylinder having a substantially axial washing-discharge opening in its outer end, said cylinder having therein chute means for feeding the washing in said cylinder toward said dischargeopening, said chute means comprising a body having at least one concave side slanting from the axially inward end of said cylinder toward said discharge opening, said concave side being arranged to receive the washing present in the cylinder and convey the washing gravitationally toward said discharge opening, said concave slide having means at one end to supportably connect with a part on the axially inner end of said cylinder, and said concave side having further means on its opposite end to supportably engage a part of the wall of said discharge opening to position said concave slide to deliver washing thereon through said discharge opening.

7. A tumbling machine having, in combination, a casing for containing a fluid, the casing having an end wall provided with an opening, tumbling container in the casing into which some of the fluid may enter, the container having adjacent to the casing end wall an end wall provided with an opening alined with the casingend-wall opening, means for actuating the container in the casing to tumble the contents of the container in the fluid, a door for closing the casing-end-wall opening during the tumbling of the-said contents, and means actuable with the container for directing the contents of the container toward the alined end-wall openings.

8. A tumbling machine having, in combination, a tumbling container having an end wall provided with an opening, means for actuating the container to tumble the contents thereof, and unloading means insertable into the container through the opening after the tumbling operation and actuable thereafter with the container for directing the contents of the container toward the opening to unload the container, the unloading means being normally outside the container during the tumbling operation in order not to interfere with the tumbling.

9. A tumbling machine having, in combina-' tion, a tumbling container having an end wall provided with an opening, means for actuating the container to tumble the contents thereof, and a chute insertable into the container through the opening after the tumbling operation and actuable thereafter with the container for directing the contents of the container toward the opening to unload the container, the chute being normally outside the container during the tumblin operation in order not to interfere with the, tumbling.

10. A tumbling machine of the character described having, in combination, a tumbling conwall provided with an opening alined with the casing-end-wall opening, means for actuating the container inthe casing to tumble the contents of the container, and means insertable into the container after the tumbling operation and actuable thereafter with the container for directing the contents of the container toward the alined end-Wall openings.

12. A machine of the character described having, in combination, substantially alined containers each having an outer end wall provided with an opening, means for actuating the containers, and right-hand and left-hand chutes disposed in the respective containers and actuable with the containers for directing the contents of the containers toward the respective openings.

13. A washing machine comprising a casing for containing a washing fluid, a washing cylinder rotatably mounted in said casing and into which some of the washing fluid may enter, means for rotating the cylinder in the casing to wash the contents of the cylinder in the washing fluid, said cylinder having a discharge opening in an end thereof, said casing being formed with a discharge orifice registered with said discharge opening, and a chute mounted within and rotatable with said washing cylinder, said chute having surfaces angulated with respect to the axis of said cylinder for moving the contents of the cylinder after washing through said opening and said orifice as the cylinder is rotated.

14. A washing machine comprising a housing for containing a washing fluid, a horizontal shaft journalled on' and extending at one side of said housing, a washing cylinder carried by said shaft at said side of the housing and into which some of the washing fluid may enter, and motor means on said housing connected to turn said shaft in order to rotate the cylinder in the housing to wash the contents of the cylinder in the washing fluid, said cylinder having a substantially axial washing-discharge opening in its axially outer end, and said cylinder having therein chute means rotatable therewith for feeding the contents of said cylinder after washing toward said discharge opening.

15. A washing machine comprising a housing for containing a washing fluid, a horizontal shaft journalled on and extending at one side of said housing, a washing cylinder carried by said shaft at said side of the housing and into which some of the washing fluid may enter, and motor means on said housing connected to turn said shaft in order to rotate the cylinder in the housing to wash the contents of the cylinder in the washing fluid, said cylinder having a substantially axial washing discharge opening in its axially outer end, said cylinder having therein chute means rotatable therewith for feeding the contents of said cylinder after washing toward said discharge opening, said chute means comprising a body having at least one concave side slanting from the axially inner end of said cylinder toward said discharge opening, and said concave side being arranged to receive the washing present in the cylinder and convey the washing gravitationally toward said discharge opening.

16.v A washing machine comprising a housin for containing a washing fluid, a horizontal shaft journalled on and extending atone side of said housing, a washing cylinder carried by said'shaft at said side of the housing and into which some of the washing fluid may enter, and motor means on said housing connected to turn said shaft in order to rotate the cylinder in the housing to wash the contents of the cylinder in the washing fluid, said cylinder having a substantially axial washing-discharge opening in its axially outer end, said cylinder having therein chute means rotatable therewith for feeding the contents of said cylinder after washing toward said discharge opening, said chute means comprising a substantially conical body having its smaller end connected to the axially inner end of said cylinder and with its axis substantially aligned with the axis of said cylinder, and the body having a concave side to receive washing from the interior of said cylinder and convey said wash toward said discharge opening.

17. A washing machine comprising a casing for containing a washing fluid, a washing cylinder supported for rotation in the casing' 'and into which some of the washing fluid may enter, drive means operatively connected to said washing cylinder for rotating said washing cylinder in the casing to wash the contents of the cylinder in the washing fluid, the axially outer end of. said washing cylinder being formed with a washdischarge opening aligned with a discharge oriflce provided in the end wall of the casing, chute means within the washing cylinder forv moving the contents of the cylinder after washing through said discharge opening and orifice to empty the washing cylinder of the contents thereof after washing, said chute means comprising a body mounted axially in said cylinder and having a concave chute area slanting in an axially outward direction toward the discharge opening of the cylinder, and means for securing said chute in said cylinder.

18. A tumbling machine having, in combination, a tumbling container interiorly provided with a-bailie and having an end wall provided with an opening, means m, actuating the container to tumble the contents thereof, and a chute insertable into the container after the tumbling operation having a portion engageable with the baflle and actuable thereafter with the container for directing the contents of the container toward the opening.-

19. A tumbling machine having, in combination, a casing having a centrally disposed section and an end section disposed at each end of the centrally disposed section, the end sections being adapted to contain a fluid and each having an outer wall provided with an opening, a tumbling cylinder in each end section into which some of the fluid may enter, each-cylinder having adjacent to the corresponding casing end wall an end wall provided with an opening alinged with the corresponding casing-end-wall opening, means disposed in the central section for rotating the cylinders in the respective end sections to tumble thecontents of the cylinders in the fluid, and right-and-left-hand chutes 'disposed in the respective cylinders and rotatable with the cylinders for respectively directing the contents of the cylinders toward the aligned endwall openings of the respective end sections and the cylinders contained therein to unload the respective cylinders.

20. A washing machine comprising a casing comprising a central section and end sections secured to opposite ends of said central section, a washing cylinder in each of said end sections, a shaft journalled in the end walls of said central section and on which said cylinders are supportably mounted, and drive means on said central section and operatively connected to said shaft for simultaneously rotating said washing cylinders, the axially outer ends of said washing cylinders being formed with wash-discharge openings alined with discharge orifices provided in the end walls of the corresponding end sections, and right-and-left-hand means within the respective washing cylinders for moving the -wash therein through said discharge openings and said orifices .to empty the washing cylinders of the wash 2,868,586 walls of the corresponding end sections. and

right-and-left-hand chutes within the respective washing cylinders for moving the wash therein through said discharge openings and said orifices to empty the washing cylinders of the wash therein, said chute means tapering from the inner ends of the cylinders toward said discharge openings. I

22. A washing machine comprising a central housing, a pair of shaft hearings on the opposite end walls of said housing, a horizontal shaft journalled through said shaft bearings, said shaft havin end portions extending axially beyond the corresponding end walls of the housing, a washing cylinder supportably mounted on each of said end portions, a. motor on said central housing, and drive means within said central housing and operatively connecting said motor and said horizontal shaft, said washing-cylinders having launof the said contents, and means insertable in the opening in the space above the contents of the container and being actuable with the container, whereby the contents of the container will become loaded upon the chute during the actuation of the container, the chute having a surface that slopes downward toward the opening when the said contents become so loaded upon the chute, and the chute being normally outside the con- .tainer during the tumbling of the contents of the container in order not to interfere with the tumbling.

24. A tumbling machine having, in combination, a container having an end wall provided with an opening, means for actuating the container to tumble the contents thereof. a chute insertable into the container through the opening in the space above the contents of the container. and means for rotating the chute into the contents of the container through a part-revolution to cause the contents of the container to become deposited upon the chute, the chute having a surface that slopes downward toward the opening when the said contents become so deposited upon the chute, and the chute being normally outside the container during the tumbling oi the contents of the container in order not to interfere with the tumbling.

' 25. A tumbling machine having. in combination, a tumbling container having two oppositely disposed end walls one of which is provided with an -opening, means for actuating the container I to tumble the contents thereof, a chute for unloading the container through the opening inserta-ble into'the container through the opening, the chute having a relatively small end, a relatively large end, and bounding sides connecting the ends, and means for securing the chute in the container with the relatively small end secured to the other end wall.

26. A tumbling machine having, in combination, a container having an end wall provided With'an opening,.means for actuating the container to tumble the contents thereof, a door for closing the end-wall opening during the tiunbling container through the opening after the tumbling operation'and actuable with the container for directing the contents of the container toward the opening.

27. A tumbling machine having, in combination, a casing for containing a fluid, the casing having an end wall provided with an opening, a tumbling container in the casing into which some of the fluid may enter, the container having ad-.

Jacent to the casing end wall an end wall provided with an opening alined with the casingend-wall opening, means for actuating the container in the casing to tumble the contents of the container in the fluid, and a chute for directing the contents of the container toward the alined end-wall openings.

28. A tumbling machine having, in combination, a tumbling container having an inner end wall and an outer end can provided with an opening, means for actuating the container to tumble the contents thereof. a chute insertable into the container after the tumbling operation and actuable thereafter with the container for directing the contents of the container toward the opening, and means for detachably securing the chute to the inner end wall of the cylinder, the chute hav- 5 ing a portion adapted to rest upon the wall of the opening of" the outer end wall when secured to the inner end wall.

29. A tumbling machine having, in combination, a tumbling container interiorly providedso with a projection and having an end wall provided with an opening, means for actuating the container to tumble the contents thereof, and a chute insertable into the container after the tumbling operation having a portion engageable with the projection and actuable thereafter with the container for directing the contents of the container toward the opening.

JOHN E. VE'I'ORINO.