US1145431A - Power transmission. - Google Patents

Description

a. e. MlLNEf POWER TRANSMISSION.

APPLICATION FILED JAN. 24. 1914.

1,145,131 9 Patented July 6, 1915;

WITNESSES I 1 r M/VE/VTOH A NORA/78 J E eras rnirnnr orrrcn 'GEORGE e. MILNE, OE RYE, NEW YORK, AssIoNoR 'ro GOULD COUPLER- coiurAnY, A

CORPORATION-OF NEW YORK.

POWER TRANSMISSION.

Application filedl'anuary 24, 1914. Serial No. 814,055.

To all whom it may %067'1" Be it known that I, GEORGE G. MILNE, a citizen of the United States, and a resident of Rye, county of Westchester, and State of New York, have invented certain new and useful Improvements in Power Transmission, of which the following is a specification.

My invention relates to improvements in power transmission, and more particularly to driving connections between a car axle and dynamo electric machine and where the axle drives the dynamo, although certain of my improvements will be found advantageous where the parts are reversed.

One object of the invention is to provide a resilient connection in the driving means whereby when the car is suddenly and rapidly started the strain on the rotating arts. will be relieved and Breakage of the s afting prevented.

A further object of the invention is to provide a simple and eficient apparatus for this purpose which has a part which is constructed and adapted to give way or break in case the driven part is stopped for any reason while the driving part continues to rotate, so that damage will not be done to the shafting and there is no likelihood that the shafting or other parts will become broken and drop to the tracks so as to be apt to derail the car or train and cause serious accident. shaft-drive for such purpose has been that, in case the dynamo should become stopped because of a hot box in its armature bearing, its burning out or a breaking of any of its parts, or because of the car being suddenly started, there was great likelihood of the shafting connecting it with the-car axle breaking, causing part of the shafting to drop to the tracks, which would likely cause derailment. Hence the belt-drive has may be made in the particular apparatus One disadvantage of the Specification of Letters Patent.

* PatentedJuly-6,1915.

shown and described without departing from the spirit and scope of my invention 1n 1ts broader aspects, hence I do not desire to be llmited to the details shown and described but desire to cover allforms coming within the scope of the appended claims.

In the drawings, Figure 1 is a side elevation illustrating the application of my invention in one form; Fig. 2 is an enlarged detail of the driving means adapted to give way and adjacent parts; Fig. 3 is a section taken on the line 33 ,of Fig. 2; Big. 4 is a view similar to Fig. 2 but showing a modification; and Fig.5 is a section taken on the line 55 of Fig. 4.

Referring to Figs. 1 to 3, 6 represents a car body provided at one end with a truck 7 and with wheels 8 rigid with the axle 9. A. casing 10 issupported by the axle 9 and, links 11 hanging from an arm 12 carried by theend sill 13 of the truck. The casing 10 contains any suitable driving gears receivingmotion from the axle 9 and driving the shafting 14 through a universal joint 15-. Fixedly supported from the .car body by a frame 16 is a dynamo electric machine 17,

although the dynamo .may be supported from the truck if desired. The rotating armatureof the dynamo carries at one end rigidly secured thereto a member 18 having projecting horizontally therefrom a resilient 'etallic' member 19 adapted to be engaged by a lateral pin 20 extending from the shaft 21 which shaft 21 is adapted to slide in the direction of its axis in the bearings 22 rigid with or forming part of the dynamo frame. The shaft 21 is connected ,with the shafting 14 by a universal connecs tion. at 23. The member 19 is made sufliciently stiff so that as thegcar starts up itv will gradually bring the dynamo up to speed and drivethe same by being driven by the pin 20. In case, however, the dynamo should become stopped as=bymeans of a hotel. or

box in the dynamo or breakage of partswhile the car is still moving and its axle driving the shafting 14, etc., the member 19- will bend sufliciently to allow the pin 20 to pass by it. The pin 20 continues to revolve, bending and passing the member 19 at each revolution until the car stops or the member breaks off because of the vibrations and jars to which it is subjected. The member 19 is thus made sutficiently weaka so that such stoppage of the dynamo will not cause breakage of the shafting labor other'parts,

I vent breakage.

and if the car is suddenly rapidly started or stopped the resilient member will relieve the strain on the rotating parts and thus pre- When going about curves, and if for any other reason the distance between the bearing 22 and the casing 10 varies, the shaft 21 will slide through the bearing 22 and the member 19' is long enough so that the pin 20 will at the same time slide along it and it will always engage the pin 20 under such varying conditions.

Referring to Figs. 4 and 5, in the modification there shown'the resilient member 19 instead of being secured to the member 18 on the dynamo armature, is secured to the pin- 20 and works in a slot 24 in the disk member 18, and in case the dynamo is stopped when the car is running the member 19.will bend and slip out of the slot and merely wipe around over the flat face of the disk member 18. When, however, the apparatus is, started up anew, if the dynamo be in order, the member 19 as it now moves slowly over the .face of the disk 18 will, when it first reaches the slot 24, slip into it, and then start up the dynamo in the regular way. Other forms of spring'or resilient connections may obviously be used, and in some cases the spring or resilient connection may be fixedly secured at both its ends to the connecting parts.

What I claim as new and desire to secure by' Letters Patent, is:

1. An apparatus of the class described having in combination with the car axle a dynamo electric machine driven from the axle wholly by means of gears and shafting except that a connection is interposed intermediate the axle and dynamo constructed and adapted to break or give way to prevent breakage of the shafting should dynamo for any reason become stopped and still permit normal rotation'of the axle.

2. An apparatus of the class described having in combination with thecar axle a dvnamo electric machine, driven from the axle wholly by means of gears and shafting except that a connection is interposed intermediate the axle and dynamo constructed and adapted to break or give way to prevent breakage of the shafting should dynamo for any reason become stopped and still permit normal rotation of the axle, said connection being resilient whereby strain on the rotating parts is diminishedat times of sudden start orshock.

. 3. In combination with a car with its body, trucks and axles, a generator rigidly supported on the underneath sideof the car body at one side of a truck of the car, a mechanical driving connection beneath the car body extendlng between the generator and an axle of the truck to drive the generator, part of which connection is adapted to give way to permit the generator to remain stationary while the axle revolves and thereby prevent breakage of other parts of the driving connection.

4-. In combination with a car with its body, trucks and axles, a generator rigidly supported on the underneath side of the car body at one side of .a' truck of the car, a mechanical driving connection beneath the car body extendingbetween the generator and an axle of the truck to drive the gem erator, part of which connection is adapted to 'give way to permit the'generator to remain stationary-while the axle revolves and thereby prevent breakage of other parts of the driving connection, said driving connection comprising a driving shaft carrying said part adapted to'give Way, and

part gives way.

'5. An apparatus of the class described comprising in combination with a car, its axle and a dynamo electric machine supported from the car body, a mechanical driving connecting means between the axle and dynamo machine, part of which comprises a resilient connection adapted to relieve strain on the rotating parts in case of sudden start or shock, and to give Way and prevent serious breakage should the means for supporting said shaft in case said driven apparatus become stopped for any reason, said driving connecting means comprlslng a driven shaft, and means for supporting said shaft.

6. An apparatus of the class described comprising IILCOIIIblIIatlOII with a car, its

axle and a dynamo electric machine supported from the car body, a mechanical driving connecting means between the axle and dynamo machine, said means comprising a shaft journaledin the framework of thedynamo machine, universal connections between said shaft and the axle, and meansv adapted to give way if the driven member should become stopped and still permit normal rotation of theaXle and the driving member'continue to rotate, said means forming a driving connection between the shaft and rotary part of the dynamo machine.

resilient metallic member adapted to bend out of driving connection a when the said driven member stops with the driving member continuing to rotate.

8. An apparatus of the class described having in combination with the car axle a dynamo and means for driving the dynamo from the axle including shafting, gears connecting the shafting directly with the axle and a part adapted to give way to prevent breakage of the shafting should the dynamo become stopped for any reason and still permit normal rotation of the axle.

9. An apparatus of the class described comprising in combination with a car, its axle and a dynamo electric machine, a mechanical driving connecting means between the axle and dynamo machine, said means comprising a shaft journaled in the framework of the dynamo machine, universal connections'between said shaft and the axle, and means adapted to give way if the driven member should become stopped and the driving member continue to rotate, said means forming a driving connection between the shaft and rotary part of the dynamo machine and embracing a resilient metallic member adapted to benbl'out of driving connection when the said driven member stops withthe driving membercon-- tinuing to-rotate. 3o- 10. An apparatus of the class described having incombination with the car axle a dynamo and means for driving the dynamo from the axle including shafting, gears connecting the shafting directly with the'axle and a part adapted to give way to prevent breakage of the shafting should the dynamo become stoppedfor any reason and still permit normal rotation of the axle, said last mentioned part being resilient to re-- lieve strain on the rotated parts in case of sudden start or shock.

11. An apparatus of the class described having in combination with the car axle a dynamo supported rigidly on the car body and means for driving the dynamo from the axl'e including shafting, gears connecting the shafting directly with the axle anda .part adapted to give way to prevent breakage of the shafting should the dynamo become stopped for any reason and still per.- mit norma rotation of the axle.

12. An apparatus of the class described comprising in combination with a car, its

axle and a dynamo electric machine supported from the car body and driven by the car axle, a mechanical driving connecting means between the axle and dynamo machine, said means comprising a shaft journaled in theframework of the dynamo machine, universal connections between said shaft and the axle, and means adapted to give way if the driven member should become. stopped and the driving member continue to rotate, said means forming a driving connection as between the shaft and rotary part of the .axle including shafting, gears connecting the shafting directly with the axle and a part adapted to give way to prevent breakage of the shafting should the dynamo become stopped for any reason, said last mentioned part being resilient and adapted to bend out of driving connection.

l L'An apparatus of the class described comprising in combination with a car, its

axle and a dynamo electric machine driven by the car axle, a mechanical driving con necting means between the axle and'dynamo machine, said means comprising a shaftjournaled in the framework of the dynamo machine, universal connections between said shaft and the axle, and means adapted to give way to' prevent breakage of the other driving connections, said means forming a 1 driving connection between the shaft and rotary part of the dynamo machine and embracing a resilient metallic member adapted to bend out of driving connection when the said-driven member stops With the driving member continuing to rotate.

15. An apparatus of the class described comprising in combination with a car, its

axle and a dynamo supported from the car body, a shaft for driving the dynamo journaled in a frame rigid with the dynamo and adapted to slide in its bearings in the direction of its axis, means for drivingsaid shaft from the dynamo, said means embracing universal connections, and means for driving said dynamo from said shaft, said last mentioned means having a part "which is adapted to give way, which part comprises a resilient metallic member adapted to bend out of driving connection should the dynamo becoihe stopped while the axle is turning.

16. An apparatus of the class described comprising in combination with a car, its axle and a dynamo, a shaft for driving the dynamo journaled in a frame rigid with the dynamo and adapted to slide in its bearings in the direction of its axis, means for driv-' ing said shaft from the dynamo, and means for driving said dynamo from said shaft, said last mentioned means having a part which is adapted to give way, which part comprises a resilient metallic member adapted to bend out of driving connection should the dynamo become stopped while the axle is turning.

17 An apparatus of the class described having in combination with the car axle a dynamo and means for driving the dynamo iacfrom the axle including shafting, gears connecting the shafting directly with the axle;

universal connections for the shafting and a part adapted to give way to prevent breakage of the shafting should the dynamo become stopped for any reason and still permit normal rotation of the axle.

18. An apparatus of the class described having in combination with the car axle a dynamo supported rigidly on the car body. and means for driving the dynamo from the axle including shafting, gears connecting the shafting directly with the axle universal connections to allow for the relative movements between the dynamo and axle and a part adapted to give way to prevent breakage of the shafting should the dynamo become stopped for any reason and still permit normal rotation of the axle.

20. An apparatus of the class described having in combination with the car axle a dynamo supported rigidly on the car body and means for driving the dynamo from the axle including shafting, gears connecting the shafting directly with the axle universal connections to allow for the relative movements between the dynamo and axle and a part adapted to give way to prevent breakage of the shafting should the dynamo become stopped for any reason, part of said shafting having bearings in which it is slidable toward and from the axle.

21. An apparatus of the class described, having in combination with a car axle a dynamo and means for driving the dynamo.

from the axle including shafting, gears connecting the shafting directly with the axle and a part adapted to give way to prevent breakage of the shafting should the dynamo become stopped for any reason, said part adapted to give way comprising a metallic driving connection adapted to bend out of driving connection or break-upon stoppage of the dynamo. y 22. In combination with a car with its body, trucks and axles, a generator rigidly supported on the underneath side of the car body at one side of a truck of the car, a mechanical driving connection beneath the car body extending between the generator and an axle of the truck to drive the generator part of which connection is adapted to give way to permit the generator to remain stationary while the axle revolves and thereby prevent breakage of other parts of the driving connection, said part adapted to give way comprising a metallic driving connection adapted to bend out of driving connection or break upon stoppage of the dynamo. In testimony whereof, I have signed my name to this Specification, in the presence of two subscribing witnesses.

GORHAM Onosnr, EDWIN SEGER.

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