US1742695A - Reversing mechanism - Google Patents

Description

Jan. 7, 1930. V c. F. DIETHER REVERSING MECHANISM Filed Sept. 26, 1927 3 Sheets-Sheet Jan-7,1930 C. F.DIE1 'HER I ,6 5

REVERSING MECHANISM Filed Sept. 26, 1927 s Sheets-Sheet 2 ,47- lP/VEV f Jan. 7, 1930. v c, DIETHER 1,742,695

REVERS ING MECHANI SM Filed Sept. 26, 1927 3 Sheets-Sheet 3 6 7 ll mail I E l li mun mu 4 2 ND 22 20 i {Z 1 I 19 M1 25 12 m. w i

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Patented Jan. 7, 1930 UNITED STATES PATENT OFFICE CARLF. DIFTHER, OF EAST CLEVELAND, OHIO, ASSIGNOR OF ONE-HALF TO ROBERT S, MAYER, 0F CLEVELAND, OHIO nnvnnsine MECHANISM Application filed September 26, 1927, Serial No. 221,943.

My invention relates to reversible driving mechanism in which the reversal takes place automatically while the main driving member is continuously driven in the same direction.

Such apparatus is, of course, Well known, but in so far as I am aware, its construction has heretofore involved a complication of parts and complexity of operation, which it is the object of this invention to eliminate.

The said invention consists of means hereinafter fully described and particularly set forth in the claims.

My invention is particularly adaptable for use in connection with washing machines in which a reversing drum or receptacle is used.

The annexed drawings and the following description set forth in detail certain means for carrying out my invention, the disclosed means, however, constituting but one of the various mechanical forms in which the principle of my invention may be employed.

In said annexed drawings:

Figure 1 represents a front elevation of a reversible driving mechanism taken from the plane indicated by line II, Fig. 2, as particularly adapted for use in connection with a washing machine of the above-mentioned type, with parts broken away.

ig. 2 represents an end elevation of 'a fragmentary part of said mechanism taken from the plane indicated by line IIII,

Fig. 1, a fragmentary part of the reversible drum being also shown.

Fig. 3 represents a plan of said mechanism partly in section taken upon the plane inclicated by line IIIIII, Fig. 1.

Fig. 4 represents a detail view taken upon the plane indicated by line IV-IV, Fig. 3.

Fig. 5 represents a detail view taken upon the plane-indicated by line V-V, Fig. 1.

The illustrated embodiment of my invention includes a main frame 1 upon thelower part of which is mounted a motor 2. Upon the shaft of the latter is fixed ing pinion 3 which drives a gear Wheel 4 loosely mounted upon a shaft 5 which is nect-ion therewith through the medium of a manually operable clutch 7 To the inner the main driv end of said shaft is fixed a pinion 8, which v meshes with a gear 9, Fig. 1. 'Said gear is keyed to a friction wheel 10, Fig. 5. Gear 9 and wheel 10 are coaxial, as shown, and are keyed to a shaft 11, mounted in bearings 1212.

Said bearingsform a part of a framemember 13 oscillatorily mounted on shaft 5,

Loosely mounted upon a rod 14 fixed to the frame-member 13 is a gear 15 of the same size and meshing with gear 9. This second gear is coaxial and connected with a second friction wheel 16 of the same size as wheel 10, these two wheels being of less diameter than the extreme diameter of wheels 9 and 15 as shown in Fig. 3, so that theircircumferences are out of contact and are located in vertical alinement with a large driven friction wheel 17.

As shown in Fig. 2, the latter is mounted between frame land frame members 25 upon frame-member 13, Fig. 4. The axis of said shaft 21 is hence right angularly related to the axes of shaft 11 and rod 14.

Fixed to the other end of shaft 21 is a cam 23. Located in the path of rotationxof the latter are two yielding contact members 24-24, one above and the other below, which consist of flat elastic plates each suitablysecured to the main frame 1, Fig. 4.

The friction wheels are so positioned and 7 the amplitude of'oscillation of the framemember 13 such that either of said wheels 10 and 16 may be caused to engage the large wheel 17 while the other is out of engage- -ment, by shifting member 13 on its axis. mounted in a bearing 6 and capable of con- The above-described device operates as follows:

Let it be assumed that the main driving pinion is being driven by the motor continuously in the direction indicated by the arrow in Fig. 1.

The gear 4 will be driven in the opposite direction as shown by the arrow thereon, and it in turn will drive shaft 5 and pinion 8 in the same direction. Pinion 8 drives gear 9 and hence wheel 10 in the opposite direction and the latter drives gear and hence wheel 16. Wheels 10 and 16 are hence continuously driven in opposite directions as indicated by the arrows in Figs. 1 and 2.

\Vheel 17 will hence be driven in one or the other direction according as wheel 10 or wheel 16 is in engagement therewith.

Gear 9 drives the shaft 11 which drives worm 19. Worm wheel 20, shaft 21 and cam 23 are hence continuously rotated in the same direction. Said cam during such rotation alternately engages the stop-plates 2 1 and hence alternately tilts the frame-member 13 in opposite directions so as to cause friction wheels 10' and 16 to alternately engage the drive wheel 17. That is,when the cam env gages the upper plate 24 wheel 10 will engage wheel 17 and when said cam engages lower plate 21 wheel 16 will engage said wheel 17. Since as previously pointed out, these wheels 10 and 16 are continuously driven in opposite directions, the whecl 17 will therefore have its direction of rotation alternate, that is, it will oscillate and it will impart such change and oscillatory movement to the receptacle or drum 18'.

In the following claims, the'term oscillatory, as applied to the frame-member or support 13, is intended to include any to and fro movement of' the support which will effect the same or similar results as the pivotal mounting disclosed herein. 7

WVhat I claim is: p p

1. In a driving mechanism, the combination of a framepa driven member and an oscillatory support mounted on'the frame; driving members carried by the support and adapted to engage the driven member; a driving pinion mounted upon the frame and operatively connected to the driving member; and means for bringing said driving members in rotation into engagement with the driven member, said means comprising a cam device and a cooperating device having a plurality of contact members, one of said devices being movable relative to the other and one being carried bythe support.

2. In a reversing driving mechanism, the combination of a frame; a driven member and an oscillatory support mounted upon the frame; two driving members mounted upon the support and adapted alternately to engage saiddriven member, said driving members including two mutually meshed gears; a

driving pinion carried on the frame and engaging one of sa1d gears; and automatic means for oscillating the support, said means comprising a worm mounted on said support and connected with the driving pinion, a shaft mounted on the support, a worm wheel on said shaft and in engagement with said worm, a cam on said shaft, and stops on the frame engageable by the cam.

3. In a reversing driving mechanism, the combination of a main frame; a driven wheel mounted upon said frame a support pivotalfy mounted upon said frame; two driving members mounted onsaid support for engaging said driven wheel; means for moving said member in opposite directions; including a pinion carried by the frame and operatively connected to one of said driving members; and means for effecting the alternate engagement of said members with said driven wheel, said second means comprising a shaft mounted on said support so as to be oscillatory about an axis lying in a plane transverse with respect to its own axis and so as to be driven by one of the driving members; a cam mounted upon said shaft; and two contact members mounted upon said frame, said cam during its rotation being adapted to alternately engage said contact members.

4. In a reversing mechanism, the combination of a main frame a driven wheel mounted upon said frame; a support pivotally mounted upon said'frame; two driving members on said support for engaging said wheel; means for actuating said members in opposite directions; and means for effecting alternate engagement of said members with said Wheel, said second means comprising a shaft operatively connected with one of said driving members and mounted on said support for oscillatory movement about an axis lying in a plane transverse with respect to its own axis, a cam carried by said shaft, and two yieldable contact members fixed to said frame, said cam during its rotation being adapted to engage said contact members alternately.

5. A reversing driving mechanism comprising a frame; a driven member and an oscillatory support mounted upon the frame; mutually engaged, oppositely rotatable, driving-members carried by the support and alternately engageable with the driven member when the support is oscillated; means for rotating said driving members, said means including a driving pinion engaging one of the driving members; and automatic means for oscillating the support, said second means being operatively connected to one of said driving'members and comprising two contact members and a cam element adapted for alternate engagement with the two contact members.

6. A reversing driving mechanism comprising a frame, a driven member and a driving pinion carried on the frame; an oscillatory support mounted on the frame; two driving members mounted on the support, said driving members including two mutually llG meshed gears and driving wheels fixed thereto for alternate engagement with the driven member when the support is oscillated and one of said gears being engaged by the pinion; and means for oscillating said support, said means including a cam device and a cooperating device having a plurality of contact members, one of said devices being movable relative to the other and one being carried by the support. 7

7. A reversing driving mechanism comprising a frame having two spaced contact members; a driven member and a drive shaft mounted on the frame; a support pivotally mounted on the shaft; two driving members carried by the support, said driving members including two mutually engaged gears having fixed thereto driving wheels mounted for alternating engagement with the driven memher; a driving pinion fixed to the drive shaft and engaging one of said gears; and a reversing mechanism including a cam and a camshaft carried on the support so as to lie in a plane transverse with respect to the axis of, and having operating engagement with, one of the driving members, the cam of said camshaft bein positioned between the contact members fbr alternating engagement therewith when the camshaft is rotated.

8. A reversing driving mechanism com prising a frame; a driven member and a driving pinion carried on the frame; a support mounted on the frame for oscillatory movement; interengaged driving gears carried by the support, one of said gears being engaged by the pinion; driving members fixed to said gears and positioned for alternating engagement with the driven member when the supportis oscillated; and automatic means for oscillating the support, said means comprising two spaced contact members on the frame and a camshaft mounted on the support in mechanical engagement with one of the driving members and with its cam between the contact members for alternating contact therewith when the camshaft is rotated.

9. In a mechanical movement having a frame and a driven member carried thereon, a reversing driving mechanism comprising a driving pinion and an oscillatory support mounted on the frame; a driving gear carried by the support and meshed with the pinion; a second driving gear carried by the support and meshed with the first gear; a driving wheel fixed to each of said gears, said driving wheels being adapted for alternating engagement with the driven member when the support is oscillated; a shaft carried on the support and connected with one of the driving gears so as to be rotated when the gear rotates; a cam device on said shaft; and contact members on the frame near the cam device, said cam device successively engaging the contact members when the shaft is rotated, whereby the support is oscillated.

' 10. Areversinglmechanism comprising a driven lwheel; :frame members having bearings adjacent the :two sides (if. the wheel, said wheel being: mounted in :said bearings-1;: an

oscillatoryv supportwcarnied. by one of said frame members ;:oppositely rotatable driving wheels mounted on, the support, means for rotatingthe driving wheels; and means for automatically efiecting alternating engageinentofthedriving wheels with the driven wheel, said second means including a .shaft mounted on said support and operatively connected to I one of the. driving wheels,wkcam means on said shaft and spaced. yielda'ble contact memberscarried'by one of the frame members so that the contact members will be alternately engaged by the cam means upon actuation of the shaft.

11. In a reversing driving mechanism, the

combination of a frame, a prime mover 7 is oscillated, means for operating the driving members from the prime mover, and means for automatically oscillating the support, said last mentioned means including a cam device operatively connected to the prime mover and a cooperating device having two yielde able contact members, one of said devices being carried by the support and the other device being mounted on the frame.

12. The combination of a frame; a driven member mounted on the frame; and means for imparting an oscillatory motion to the driven member, said means comprising a support mounted on the frame for oscillatory movement, two oppositely movable driving members mounted on the support for alternating engagement with the driven member when the support is oscillated, means 'on the frame for operating the driving members from a prime mover, and means for oscillating the support, said last mentioned means including a device having a plurality of contact members and a cooperating device operatively connected to the prime mover and adapted to contact with said contact members in rotation,'one of said devices being carried by the support and the other device being mounted on the frame.

13. The combination of a frame; a driven wheel mounted upon the frame; and mechanism carried by the frame for operatively connecting said wheel to. a prime mover for reversing the direction of the drive from the prime'mover to the wheel when the latter is being driven by the prime mover, said mechanism comprising a support mounted on the frame for rocking movement and means for imparting rocking movement to the support, said means including a cam device and a cooperating device having a plurality of contact members, one of said devices'being movable relative to the other and one being carried by the support, and said movable device being operatively connected to an actuating means. I

CARL F. DIETHER.

. Signed by me this 21st day of September,

CERTIFICATE OF CORRECTION.

Patent No. 1,742,695. Granted January 7, 1930, to

CARL F. DIETHER.

It is hereby certified that error appears in the printed specification of the above numbered patent requiring correction as follows: Page 2, line 78, claim 3, for the word "member" read "members", and after the word "directions" strike out the semi-colon, same page and claim, line 87, after the word "members" and line 88, after the word "shaft" strike out the semi-colon and insert a comma; line 126, claim 6, after the word "frame" strike out the comma and insert a semi-colon; page 3, line 85, claim it, after the word "frame" strike out the comma and insert a semi-colon; line 12), claim 13, after the word "mover" insert the Word "and"; and that the said Letters Patent should be read with these corrections therein that the same may conform to the reccrd of the case in the Patent Office.

Signed and sealed this 25th day of February, A. D. 1930.

M. J. Moore,

(Seal) Acting Commissioner of Patents.

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