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US575314A - Electric locomotive - Google Patents

Electric locomotive Download PDF

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US575314A
US575314A US575314DA US575314A US 575314 A US575314 A US 575314A US 575314D A US575314D A US 575314DA US 575314 A US575314 A US 575314A
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gear
shaft
motor
frame
pinion
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    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H19/00Model railways
    • A63H19/02Locomotives; Motor coaches
    • A63H19/10Locomotives; Motor coaches electrically driven
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10TTECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
    • Y10T74/00Machine element or mechanism
    • Y10T74/21Elements
    • Y10T74/2186Gear casings
    • Y10T74/2188Axle and torque tubes

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  • the main object of my invention is to provide means whereby the pinion-shafts, which are flexibly connected with the motor-shaft, will be so supported that the pinions will'at all times be kept in positive mesh with the gearwheels on the axles, notwithstanding the variable positions assumed by. the truckwheels, axles, and gear-wheels, due to the curvature of and variations in the track over which the locomotive is operated, the abovementioned means for supporting the pinionshafts being what I will hereinafter terr gear-frames.
  • Another object of my invention is to combine with the gear-frames suitable casings for thegear-wheels and shaft-couplings, said casings being adapted not only to protect the parts from injury, but also to contain oil for the constant lubrication of the protected parts.
  • Figure 1 of the drawings is a top plan view illustrating my invention, all parts in position, with the gear and coupling casings closed.
  • Fig. 2 is a side elevation of Fig. 1, showing the manner. of mounting the motor on the truck.
  • Fig. 3 is a top plan View illustrating-my invention with the tops R R and Y Y of the respective coupling-casings and gear-casings removed and with the car-wheels and truck-frame broken away.
  • Fig. 4: is a side elevation of Fig. 3 along the horizontal line Z Z.
  • Fig. 5 is a perspective view of one In the drawings, Nare the side beams of the truck; J, the wheels, and c the axles.
  • journal-boxes M which are preferably surmounted by, or in a suitable manner connected to, springs L, on which the car-frame is supported.
  • springs L on which the car-frame is supported.
  • I have shown the springs mounted on top of the j ournal-boxes and partially concealed in chambers K in the pedestals n, whereby the springs are not only steadied, but they are also protected.
  • the pedestals are all connected together into a semirigid frame by the side beamsN and suitable end beams, as will be seen in Fig. 1. To the end beams the brake mechanism and other necessary parts (not shown) are attached.
  • the electric motor is supported upon crossbearns lV,whicl1 are secured to the side beams N of the truck by bolts Z. In some cases it is necessary to hang these cross-beams under the side beams, so as to get the center of the arlnature-shaftll in alinement with the center of the car-axles; and in order to support and hold these crossbeams perfectly rigid I use trusses O,which preventsurging or swayingof the motor or the frame on which it rests. As will be seen in the drawings, the end plates or heads 19 q of the motor are providedwith lat- These flanges are sufliciently large of any suitable metal.
  • each axle c is rigidly fixed a split bevel gear-wheel g, with which meshesa pinion D on a short shaft E, which latter at a right angle to the axle and has flexible connection with the motor-shaft in a manner hereinafter described.
  • a top casing Y is removably secured to casing '13, serving to In the up per side of the gear-frame, at a right angle to the bearings k, are formed bearings 'h for the At its rear end the gearframe is provided on its under side with an oil-tight casing Q, encompassing the flexible coupling hereinafter described and adapted to receive a removable top casing R, these two casings entirely inclosing said coupling.
  • the casing Q is designed to contain oil, and the coupling,by revolving therein, is kept constantly lubricated.
  • To the inner end of easing Q is secured a short stud m, which is adapted to rest loosely in a bearing-block k, rigidly fixed to the crossbeam ⁇ V below and in vertical alinement with the motor-shaft.
  • each pinion-shaft E is fixed a similar driver A.
  • the outer ends of these driver-arms are made to arch toward each other, so that the centers of theouter arms shall com e as nearly in relative alinement witheach other as possible, thereby preventing. side strains, which would-tend'to disrupt the 7 5 material of which the drivers are made.
  • Suit- 1 ably-formed links 13 are fastened at one end to the drivers by means of bolts G, passedthrough the links and through holes in' the" outerends of the drivers they being similarly 8o fastened at their outer ends to a floating plate or spreader C.
  • the motor-shaft H acts as a driver and is free to revolve in either direction, or in running downgrade, where the car becomes the driver and the motor-armature the driven part, the pinion D and piniono shaft E and the two-armed drivermay become the drivers, and the arm A and motor-shaft II will then become the driven parts, which may be rotated in either direction.
  • the shaft H andpinion-shaft E should get out of 5 alinement the irregularities will be taken up by the floating plate and the four links B.
  • the car-axle may i I 5 assume a rotary position around the center of'this stud, as it has a certain amount of longitudinal play in the jaws of the car-frame, which will be taken up by the stud m sliding" inward and outward in the box 7r, or thewheels may assume a considerable side motion with relation to each other, all lateral,vertical, and horizontal motions being provided for by looseness of the stud in the box, which pre-- vents any strain on the framework of the car; 1 z 5 and the flexible couplings A A, with'thei'r connecting-links I; and floating plate 0, prevent any possible undue strain on the bearings, shafts, or gears, all of which are 1natters of great importance in the operation of I30 railway and street cars, and must be provided for and their dangers guarded against before it becomes
  • the motor apparatus can be entirely sus-' pended upon springs forming part of the framework of. the car, the axle gears and pinions, with their connecting mechanism, being supported on three points of suspensionnamely, the wheels J and the studmallows each pair of wheels independence of motion with relation to the other parts of the appa ratus; there is but little dead-weight supported on the car-axle proper, for the reason that the stud m, which carries the greater part of the strain as well as the greater part of the weight of the gear-frame, is supported on the framework of the car, and therefore the hammer-like blows imparted to the rails by the car-wheels are' to a great extent prevented, and, finally, one motor is dispensed with by this mechanism, at the same time allowing all the flexibility that can be obtained from having a motor supported on each axle.
  • An advantage in the rigid gearing of a plu rality of axles is that a flat wheel is seldom produced, for the reason that the irregularity of the friction of the brakes on the several wheels is imparted to'all the wheels alike, owing to their all being positively geared together, and, besides,it is possible to produce Very much greater tractive effect by coupling two pairs of wheels together than if each pair of wheels were driven independently, as well as the traotive effect produced from a given weight, and therefore the skidding of wheels on steep grades or on slippery rails is'almost entirely prevented, for the reason that .it is impossible to skid one pair of wheels unless all the wheels are skidded.
  • the combination with the truck and an electric motor mounted thereon, a gear-wheel rigidly secured on one of the axles, a pinion-shaft flexibly coupled to the motor-shaft, and a pinion carried by the pinion-shaft and in mesh with the gearwheel, of a gear-frame affording bearing forthe pinion-shaft and including,
  • casings for the gear-wheel and shaft-coupling the coupling-casing being provided on its inner end with a fixed stud, and a bearingblock secured to a motor-supporting crossbeam of the. truck below and in vertical alinement with the motor-shaft, said stud being adapted torest loosely in said block, thereby supporting the inner end of the gearframe at a single point, the outer end of said frame having two points of support on the axle, one on each side of the gear-wheel.

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Description

.(No Model.)
, 3 Sheets-Shet 1. W. L. SILVEY.
ELEG'TRIG LOUOMOTIVE. v
Patented Jan. 12, 1897.
(NO Model.) 3 Sheets-Sheetf2.
W. L. SILVEY'. ELECTRIC LOGOMOTIVE.
Patented Jan. 12, 1897. ik 11;";
Twen'iur;
(No Model.) 3 Sheets Sheet 3.
W. L. SILVEY. ELECTRIC LOGOMOTIVB.
Patented Jan. 12, 1897.
No; 575,3l4.
Knvanhr UNlTE Fries.
\VILLIAM L. SILVEY, OF DAYTON, OHIO ELEQTRIC} LGfiGWlOTil/E.
EaPIEGIFICATION forming part of Letters Patent No. 575,314, dated January 12, 1897.
Application filed November 7, 1896. Serial No. 568,211 (No model.) i
To aZZ whom zit may concern:-
Be it known that 1, WILLIAM L. SILVEY, a citisen of the United States, residing at Day ton, in the county of Montgomery and State of Ohio, have invented a certain new and useful Improvement in Electric Locomotives, of which'the following is a full, clear, and exact description, reference being had to the accompanying drawings,'forming part of this specification.
My invention relates to an improvement in electric locomotives of the class in which a single motor is mounted on the truck in such a manner that undue strains on and vibrations of the latter, resulting from the irregu= larities of the track, will not produce bad effects on the motor mechanism.
The main object of my invention is to provide means whereby the pinion-shafts, which are flexibly connected with the motor-shaft, will be so supported that the pinions will'at all times be kept in positive mesh with the gearwheels on the axles, notwithstanding the variable positions assumed by. the truckwheels, axles, and gear-wheels, due to the curvature of and variations in the track over which the locomotive is operated, the abovementioned means for supporting the pinionshafts being what I will hereinafter terr gear-frames.
Another object of my invention is to combine with the gear-frames suitable casings for thegear-wheels and shaft-couplings, said casings being adapted not only to protect the parts from injury, but also to contain oil for the constant lubrication of the protected parts. H p
The invention will first be described in connection with the accompanying drawings, and then pointed out in the claims.
, Figure 1 of the drawings is a top plan view illustrating my invention, all parts in position, with the gear and coupling casings closed. Fig. 2 is a side elevation of Fig. 1, showing the manner. of mounting the motor on the truck. Fig. 3 is a top plan View illustrating-my invention with the tops R R and Y Y of the respective coupling-casings and gear-casings removed and with the car-wheels and truck-frame broken away. Fig. 4: is a side elevation of Fig. 3 along the horizontal line Z Z. Fig. 5 is a perspective view of one In the drawings, Nare the side beams of the truck; J, the wheels, and c the axles. To these side beams are attached suitable journal-boxes M, which are preferably surmounted by, or in a suitable manner connected to, springs L, on which the car-frame is supported. In this case I have shown the springs mounted on top of the j ournal-boxes and partially concealed in chambers K in the pedestals n, whereby the springs are not only steadied, but they are also protected. The pedestals are all connected together into a semirigid frame by the side beamsN and suitable end beams, as will be seen in Fig. 1. To the end beams the brake mechanism and other necessary parts (not shown) are attached. It will be observed that the side beams are attached to the jaws or pedestals n, in which the journahboxes M are free to move in a vertical direction, the fork in the respective pedestals preventing the wheels and axles from get-ting out of proper alinement in a 1ongitudinal direction and at the same time allowingthem to take up any irregularity in the track, the inequalities being taken up in the'pedestal-springs'L without to any great extent throwing the side beams N out of parallelism with respect to each other.
i The electric motor is supported upon crossbearns lV,whicl1 are secured to the side beams N of the truck by bolts Z. In some cases it is necessary to hang these cross-beams under the side beams, so as to get the center of the arlnature-shaftll in alinement with the center of the car-axles; and in order to support and hold these crossbeams perfectly rigid I use trusses O,which preventsurging or swayingof the motor or the frame on which it rests. As will be seen in the drawings, the end plates or heads 19 q of the motor are providedwith lat- These flanges are sufliciently large of any suitable metal.
type, having consequential poles, the two .lie1d-magnet rings being maintained equidistant by stud-bolts T, passing through lugs on the rings, and. heavy nuts to keep-said rings in .alinement with each other. These rings are held in position by the arched heads n q or bearing-supports, to which the bearings Z) are attached. The armature S consists of a suitable slotted ring'mounted on a spider and wound with coils of iwire, which revolves between and in close proximity to the field magnet rings, the coils on the armature being connected to the com mutator'as well as to the armature, both being supported upon the shaft H,which in turn revolves in the journalboxes I) on the arched heads of the motor.
On each axle cis rigidly fixed a split bevel gear-wheel g, with which meshesa pinion D on a short shaft E, which latter at a right angle to the axle and has flexible connection with the motor-shaft in a manner hereinafter described.
- Nothing above described is claimed herein; but I Will now describe the gear-frames and their combination with other parts,which eon.- stitute'my present invention, it being understood thatthere are two of these gear-frames, one at each end of the truck, and a description of one will answer for both.
d represents the gear-frame, which may be The outer'end of the frame is so formed as to diametrically encompass'the gearwheel g, and on each side of said wheel it is provided with a babbitte'd journal-bearing h, in which the axle 0 works, these hearings being covered by caps; or halfbearings X, removablysecured thereto. thus supporting the outer end of, the gear-frame onthe axle, undue lateral movement of said frame on the axle being prevented by the face and hub of the gear-Wheel, as clearly seen in Fig. 3. At its outer end the gear-frame -is provided on its under side with an oil-tight casing 'i, which incloses'half the gear-wheel,
. entirelyinclose the gear-wheel g.
pinion. shaft E.
and also serves to contain oil for the constant lubrication of said wheel and its coactin g pinion, best seen in Fig. 4. A top casing Y is removably secured to casing '13, serving to In the up per side of the gear-frame, at a right angle to the bearings k, are formed bearings 'h for the At its rear end the gearframe is provided on its under side with an oil-tight casing Q, encompassing the flexible coupling hereinafter described and adapted to receive a removable top casing R, these two casings entirely inclosing said coupling. The casing Q is designed to contain oil, and the coupling,by revolving therein, is kept constantly lubricated. To the inner end of easing Q, is secured a short stud m, which is adapted to rest loosely in a bearing-block k, rigidly fixed to the crossbeam \V below and in vertical alinement with the motor-shaft.
The flexible coupling is constructed and arranged as follows: On each end of the motorshaft llis fastened a twoarmed driver A, and
on the inner end of each pinion-shaft E is fixed a similar driver A. In Figs. 3, 4, and 5 it will be observed that the outer ends of these driver-arms are made to arch toward each other, so that the centers of theouter arms shall com e as nearly in relative alinement witheach other as possible, thereby preventing. side strains, which would-tend'to disrupt the 7 5 material of which the drivers are made. Suit- 1 ably-formed links 13 are fastened at one end to the drivers by means of bolts G, passedthrough the links and through holes in' the" outerends of the drivers they being similarly 8o fastened at their outer ends to a floating plate or spreader C. Considerable space is allowed between the meeting faces of the drivers AA, to permit the floating plate to take varying positions without undue friction against the drivers. In practice the motor-shaft H acts as a driver and is free to revolve in either direction, or in running downgrade, where the car becomes the driver and the motor-armature the driven part, the pinion D and piniono shaft E and the two-armed drivermay become the drivers, and the arm A and motor-shaft II will then become the driven parts, which may be rotated in either direction. In case the shaft H andpinion-shaft E should get out of 5 alinement the irregularities will be taken up by the floating plate and the four links B. In fact,the two shafts frequently get out of aline-' ment as much as an inch or more in any direction without throwing undue strainon any of the hearings or parts and without the carwheels getting out of time. There is also a considerable allowance for end-to-end motion between the parts, as the floating plate; 0 is supposed to be suspended at all times by I05 means of the four links which conneet it to the ends of the drivers. y The stud m on the gear-frame d serves as a support for the inner or pinion end of that frame, allowing the axle o to take up the ir- 11o regularities of the track without throwing any v strain on said frame. In fact, the gear-frame being supported at its outer end, on each side of the large gearwheel g, by the axle and at v its inner end by the stud m, the car-axle may i I 5 assume a rotary position around the center of'this stud, as it has a certain amount of longitudinal play in the jaws of the car-frame, which will be taken up by the stud m sliding" inward and outward in the box 7r, or thewheels may assume a considerable side motion with relation to each other, all lateral,vertical, and horizontal motions being provided for by looseness of the stud in the box, which pre-- vents any strain on the framework of the car; 1 z 5 and the flexible couplings A A, with'thei'r connecting-links I; and floating plate 0, prevent any possible undue strain on the bearings, shafts, or gears, all of which are 1natters of great importance in the operation of I30 railway and street cars, and must be provided for and their dangers guarded against before it becomes possible to rigidly gear a plurality of axles together.
The advantages to be derived from this class of gearing are manifold. For instance,
the motor apparatus can be entirely sus-' pended upon springs forming part of the framework of. the car, the axle gears and pinions, with their connecting mechanism, being supported on three points of suspensionnamely, the wheels J and the studmallows each pair of wheels independence of motion with relation to the other parts of the appa ratus; there is but little dead-weight supported on the car-axle proper, for the reason that the stud m, which carries the greater part of the strain as well as the greater part of the weight of the gear-frame, is supported on the framework of the car, and therefore the hammer-like blows imparted to the rails by the car-wheels are' to a great extent prevented, and, finally, one motor is dispensed with by this mechanism, at the same time allowing all the flexibility that can be obtained from having a motor supported on each axle.
An advantage in the rigid gearing of a plu rality of axles is that a flat wheel is seldom produced, for the reason that the irregularity of the friction of the brakes on the several wheels is imparted to'all the wheels alike, owing to their all being positively geared together, and, besides,it is possible to produce Very much greater tractive effect by coupling two pairs of wheels together than if each pair of wheels were driven independently, as well as the traotive effect produced from a given weight, and therefore the skidding of wheels on steep grades or on slippery rails is'almost entirely prevented, for the reason that .it is impossible to skid one pair of wheels unless all the wheels are skidded.
It is evident that the motor can be entirely incased, making it waterproof; but I have shown only the lowerhalf of it incased,all necessary parts,'such as the brush-holders, binding-posts, &c., having been omitted for the purpose of making the drawings as plain as possible and to avoid unnecessary prolixity.
Having thus fully described my invention, what Iclaim as new, and desire to secure by .Letters Patent, is-
1. In an electric locomotive, the combination, with the truck and an electric motor mounted thereon, a gear-wheel rigidly securedon one of the axles, a pinion-shaft fleXibly coupled to the motor-shaft, and a pinion carried by the pinion-shaft and in mesh wit-h the gear-wheel, of a gear-frame affording bearing for the pinion-shaft and including casings for the gear-wheel and shaft-coup- -ling, the outer end of said frame being suspended from the aide-at two points in such manner as to prevent its lateral movement, and its inner end yieldingly suspended at a single point through pivotal connection with a cross-beam of the truck-frame, said connection comprising a stud and a bearing therefor.
2. In an electric locomotive, the combination, with the truck and an electric motor mounted thereon, a gear-wheel rigidly secured on one of the axles, a pinion-shaft fiexi;
bly coupled to the motor-shaft, and a pinion carried by the pinion-shaft and in mesh with the gear-wheel, of a gear-frame affording bearing for the pinion-shaft and including casings for the gear-wheel and shaft-coupling, said frame having at its outer end two points of support on the axle, its inner end being yieldingly suspended at a single point through pivotal connection with a cross-beam of the truck-frame, said connection comprisinga stud and a bearing therefor, the bearing being below and in vertical alinement with the motor-shaft.
3. In an electric locomotive, the combination, with the truck and an electric motor mounted thereon, a gear-wheel rigidly secured on one of the axles, a pinion-shaft flexibly coupled to the motor-shaft, and a pinion carried by the pinion-shaft and in mesh with the gearwheel, of a gear-frame affording bearing forthe pinion-shaft and including,
at its outer andinner ends respectively, casings for the gear-wheel and shaft-coupling, the coupling-casing being provided on its inner end with a fixed stud, and a bearingblock secured to a motor-supporting crossbeam of the. truck below and in vertical alinement with the motor-shaft, said stud being adapted torest loosely in said block, thereby supporting the inner end of the gearframe at a single point, the outer end of said frame having two points of support on the axle, one on each side of the gear-wheel.
In testimony whereof I have set my hand in presence of two subscribing witnesses.
WILLIAM L. SILVEY.
\Vitnesses:
E. B. LEHMAN, W. G. MITCHELL.
TOD,
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4321805A (en) * 1979-06-01 1982-03-30 Kaman Aerospace Corporation Rotary drive flexible coupling

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4321805A (en) * 1979-06-01 1982-03-30 Kaman Aerospace Corporation Rotary drive flexible coupling

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