US887483A - Electrically-proppeled vehicle. - Google Patents

Electrically-proppeled vehicle. Download PDF

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Publication number
US887483A
US887483A US38686007A US1907386860A US887483A US 887483 A US887483 A US 887483A US 38686007 A US38686007 A US 38686007A US 1907386860 A US1907386860 A US 1907386860A US 887483 A US887483 A US 887483A
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frame
field
trunnions
armature
auxiliary
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US38686007A
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Joseph Ledwinka
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61CLOCOMOTIVES; MOTOR RAILCARS
    • B61C9/00Locomotives or motor railcars characterised by the type of transmission system used; Transmission systems specially adapted for locomotives or motor railcars
    • B61C9/38Transmission systems in or for locomotives or motor railcars with electric motor propulsion

Definitions

  • My invention relates to what I'term a driving unit including two vehicle supporting wheels which are maintained in axial alinement but are relatively rotatable by respective independently controllable motors, and my improvement is particularly applicable to trucks for trolley railway cars.
  • My invention comprises the various novel features of construction and arrangement hereinafter more definitely specified.
  • Figure l is a side elevation of a trolley car embodying my improvement.
  • Fig. .II is a plan view of one of the car trucks shown. in Fig. I.
  • Fig. III is a side view of said truck, partly sectioned on the line III, III, in Fig. II.
  • Fig. IV is a vertical sectional view of said truck, taken on the line IV, IV, in Figs. II, and III.
  • Fig. V is a vertical sectional view of said truck, taken on the line V, V, in Fig. IV.
  • the car 1 is constructed and arranged; to traverse the tracks 2, which are included in an electric supply circuit with the overhead wire 3, with which.
  • connection is made from said car by means of the trolley poles 4, and 5, which are employed in alternation in accordance with the direction of traverse of thecar.
  • Said car is provided with eight supporting wheels 8, arranged in four pairs, each pair comprising what Iterm a driving unit, and two of said driving units being employed in each of the trucks 9, which may be provided with brake mechanism 10, of any suitable construction to operate the brake shoes 11.
  • each of the trucks shown in Fig. I comprises a rigid frame formed of the opposed slde plates 13, and intermediate girders 14, connected by the cylindrical tubular end cross bars 15, and intermediate cross bar 16.
  • the springs 17, which are seated on said intermediate cross bar 16, are interposed between the latter and the truck bolster 19, which has its opposite rectangular ends 20, fitted for Vertical reciprocation in the slideways21, in'said plates 13,
  • Said girders 14 comprise casings 24, for the 1 springs 25, 26, which respectively extend in said girders 14, above and below the lugs 27, proiccting horizontally from the hollougcylindrical axles 29.
  • Said axles 29, respectively connect each pair of wheels 8, in axial alinement and constitute motor field frames.
  • each of said motor field frames 29, is common to two inter-pole fields, each comprisinga plurality of mainpolar )rojections 31, provided with coils 32, and, a p urality of auxiliary polar projections 34, provided with coils 35.
  • said main field coils 32 are connected in series relation with a resistance 38, which may be varied by movement of the lever 39, with respect to the contacts 40, and said main field coils 32, are in shunt relation with the windings of the armature 42, which is local thereto.
  • the rheostat described varying the strength of the main field of the motor to weaken said field in correspondence tation of the armature.
  • Said auxiliary field coils 35 are included in a separate circuit in series relation with each other and with the local armature windings, and said circuit includes the double pole switch 43, whereby the direction of the current may be reversed with respect to said auxiliary field and armature, to reverse the rotation of the latter. It is to be understood that the function and effect of the interpolar arrangement described is to enable the motor to effect commutation during rotation in either direction, without sparking, with a variable load and at variable speed.
  • auxiliary field poles reduce the required compensatory field of commutation, independently of the main field, which as aforesaid must be weal ened in correspondence with increase in the speed of rotation of the armature.
  • the function or effect of the auxiliary field pole is independent of the direction of As indirotation of the armature, because if the latter As shown in Fig. IV; said constitutes preferable means for manually with any desired increase in the speedof roframes 29, but are independently rotatable, being respectively connected in rigid relation with the opposite vehicle supporting wheels 8, to independently rotate the latter.
  • Fig. IV constitutes preferable means for manually with any desired increase in the speedof roframes 29, but are independently rotatable, being respectively connected in rigid relation with the opposite vehicle supporting wheels 8, to independently rotate the latter.
  • said axial field frame 29 is provided with opposite alined trunnions 49, detachably secured by bolts 50 and provlded with bearings 51, detachably fitted in the hubs 52, of said wheels 8, and retained by the split collars 53, having flanges 54, engaging annular recesses in said trunnions 49.
  • Each wheel 8 has an annular oil chamber 57, which may be charged with oil 58, through the enings which are normally closed by the o Kpl ugs 59, said oil having access to the bear- 1 alined in the bearings 70, in the standards 71,
  • each of said armature shafts 47 is provided with an air circulating fan 78, and air is directed.
  • each of the driving units above described comprising a connected pair of independently rotary wheels 8, may 'be removed and replaced with respect to. the truck frame with the same facility as an ordinary pair of car wheels rigidly connected by an axle. Moreover, each wheel 8, may e removed independently, without disturbing the remainder of the truck, by unscrewing its nut 65,'re-
  • I claim I 1.
  • a motor field frame having nonrotatable trunnions at its respectively opposite ends; of wheels fitted to rotate on said trunnions; independent shafts respectively connected in rigid rela tion with said wheels, and mounted to rotate in said frame in axial alinement, in concentric relation with said trunnions; armatures respectively carried by said shafts; distinct and independently controllable magnetic fields for the respective armatures, comprising,main polar projections in said frame respectively local to said armatures, auxiliary.
  • polar projections in said frame respectively ocal to said armatures and interposed between said main polar projections, coils respectively arranged to energize said main polar projections and auxiliary polar rojections, means connecting said main 1eld coils in shunt relation to the armature windings, means connecting said auxiliary field relation with said trunnions; armatures respectivelymarried by said shafts; distinct and independently controllable magnetic fields.
  • main olar projections in said frame respectively ocal to said armatures
  • auxiliary polar projections in said frame respectively local to said armatures and interposed between-said main olar projections
  • means connecting said main field coils in shunt relation to the armature windings means connecting said auxiliary field coils in series relation to the armature windings, and, means arranged to adjustably vary the strength of the current in said main field inde endently of said auxiliary field, substantially as set forth.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Arrangement Or Mounting Of Propulsion Units For Vehicles (AREA)

Description

- J. LEDWINKA'.
PATENTED MAY 12, 1908.
v mm H 5 SHEETS-SHEET 1.
PATENTED MAY 12, 1908. J. LBDWINKA. ELEGTRIGALLY PROPELLBD VEHICLE.
5 SHEETS-8111111212.
APPLICATION FILED AUG. 3. 1907- v J uwmumimm, %W 9% W/ J. LBDWINKA;
ELBCTRICALLY PROPELLED VEHIGLB.
APPLICATION FILED AUG. 3, 1907.
6 SHEETS-SHEET 3.
WITNESSES: NVENTOR:
' EATENTED MAY 12, 1908. J. LEDWIN'KA.
ELEGTRIGALLY PROPELLED VEHICLE.
APPLICATION FILED AUG. 3, 1907.
5 SHEETS-SHEET 4.
- 3 w w m g N 2 2\ R Q hL 3% Q g J5 gs g 4 Q N \g g z a Q a Q Q N i Q g 5 N Q g a Q a g b WITNESSES: INVENTOR:
No. 887,483. PATENTED MAY 12, 1908. J. LEDWINKA.
ELEOTRIOALLY PROPELLED VEHICLE.
APPLICATION FILED AUG.3.1907.
. 5 SHEETS-SHEET 5.
FICTI K WITNESSES:
l N V E N TO R JOJfPfl m /M4, fle /9% W' To all whom it may concern:
UNITED STATES JOSEPH LEDWINKA, ()l PHILADELPHIA, PENNSYLVANIA.
ELECTRICALLY-PROPELLED VEHICLE.-
Specification of Letters Patent.
Patented May 12, 1 908. I
Application filed August 3, 1907. Serial No. 386,860.
Be it known that I, Josnrn LEDWINKA, of Philadelphia, in the State of Pennsylvania, have invented a certain new and useful Improvement in Electrically-Propelleil Vehicles, whereof the following is a specification, reference beingv had to the accompanying drawings.
My invention relates to what I'term a driving unit including two vehicle supporting wheels which are maintained in axial alinement but are relatively rotatable by respective independently controllable motors, and my improvement is particularly applicable to trucks for trolley railway cars.
My invention comprises the various novel features of construction and arrangement hereinafter more definitely specified.
In the drawings; Figure l, is a side elevation of a trolley car embodying my improvement. Fig. .II, is a plan view of one of the car trucks shown. in Fig. I. Fig. III, is a side view of said truck, partly sectioned on the line III, III, in Fig. II. Fig. IV, is a vertical sectional view of said truck, taken on the line IV, IV, in Figs. II, and III. Fig. V, is a vertical sectional view of said truck, taken on the line V, V, in Fig. IV.
Referring to Fig. I; the car 1, is constructed and arranged; to traverse the tracks 2, which are included in an electric supply circuit with the overhead wire 3, with which.
connection is made from said car by means of the trolley poles 4, and 5, which are employed in alternation in accordance with the direction of traverse of thecar. Said car is provided with eight supporting wheels 8, arranged in four pairs, each pair comprising what Iterm a driving unit, and two of said driving units being employed in each of the trucks 9, which may be provided with brake mechanism 10, of any suitable construction to operate the brake shoes 11.
Referring particularly to Figs. II, and III; it is to be understood that each of the trucks shown in Fig. I, comprises a rigid frame formed of the opposed slde plates 13, and intermediate girders 14, connected by the cylindrical tubular end cross bars 15, and intermediate cross bar 16. The springs 17, which are seated on said intermediate cross bar 16, are interposed between the latter and the truck bolster 19, which has its opposite rectangular ends 20, fitted for Vertical reciprocation in the slideways21, in'said plates 13,
and, the efiectof said springs 17,, 1s supplemented by the springs 22, which are interl posed between said plates 13, and said bolsters. Said girders 14, comprise casings 24, for the 1 springs 25, 26, which respectively extend in said girders 14, above and below the lugs 27, proiccting horizontally from the hollougcylindrical axles 29. Said axles 29, respectively connect each pair of wheels 8, in axial alinement and constitute motor field frames.
Referring to Figs. IV, and V; each of said motor field frames 29, is common to two inter-pole fields, each comprisinga plurality of mainpolar )rojections 31, provided with coils 32, and, a p urality of auxiliary polar projections 34, provided with coils 35. cated in Fig. V; said main field coils 32, are connected in series relation with a resistance 38, which may be varied by movement of the lever 39, with respect to the contacts 40, and said main field coils 32, are in shunt relation with the windings of the armature 42, which is local thereto. The rheostat ,described varying the strength of the main field of the motor to weaken said field in correspondence tation of the armature. Said auxiliary field coils 35, are included in a separate circuit in series relation with each other and with the local armature windings, and said circuit includes the double pole switch 43, whereby the direction of the current may be reversed with respect to said auxiliary field and armature, to reverse the rotation of the latter. It is to be understood that the function and effect of the interpolar arrangement described is to enable the motor to effect commutation during rotation in either direction, without sparking, with a variable load and at variable speed. All of the coils of the auxiliary field being connected in series with the armature, weakeningv of the field of commutation by an increased load is prevented, and the auxiliary poles reduce the required compensatory field of commutation, independently of the main field, which as aforesaid must be weal ened in correspondence with increase in the speed of rotation of the armature. Of course, the function or effect of the auxiliary field pole is independent of the direction of As indirotation of the armature, because if the latter As shown in Fig. IV; said constitutes preferable means for manually with any desired increase in the speedof roframes 29, but are independently rotatable, being respectively connected in rigid relation with the opposite vehicle supporting wheels 8, to independently rotate the latter. As shown in Fig. IV; said axial field frame 29, is provided with opposite alined trunnions 49, detachably secured by bolts 50 and provlded with bearings 51, detachably fitted in the hubs 52, of said wheels 8, and retained by the split collars 53, having flanges 54, engaging annular recesses in said trunnions 49. Each wheel 8, has an annular oil chamber 57, which may be charged with oil 58, through the enings which are normally closed by the o Kpl ugs 59, said oil having access to the bear- 1 alined in the bearings 70, in the standards 71,
' which is in rigid relation with the said hollow axial field frame 29. Said bearin standard '71, has chambers 73, containing oi 74, which is su plied to the shafts 47, by the chains7 5 whic are rotated by frictional engagement with said shafts. As shown in Fi IV each of said armature shafts 47 is provided with an air circulating fan 78, and air is directed. to
- and through said axial field frames29', bythe o enin s 79, and 80.
As shown in Figs. 11, I an V; said axial field frames 29, are provided with openings 83, local to the commutators 45, normally closed by the doors 85, best shown in Fig. V, which are connected with said frames 29, by the swing bolts 86, and
nuts 87. 1
It is to be understood that each of the driving units above described, comprising a connected pair of independently rotary wheels 8, may 'be removed and replaced with respect to. the truck frame with the same facility as an ordinary pair of car wheels rigidly connected by an axle. Moreover, each wheel 8, may e removed independently, without disturbing the remainder of the truck, by unscrewing its nut 65,'re-
movingits cap 62, and split collar 53; thus permitting the wheel to be slip ed off its trunnion 49. If it is desired to a so remove the armature 42 the. bolts 50, may be 'removedso' as to permit the withdrawal of the trunnion 49, and armature from the frame 29. 4
' I do not desire to limit myself to the precise details of construction and arrangement above described, as it is obvious that various modifications may be made therein without departing from the essential features of my invention, as defined in the appended claims.
I claim I 1. The combination with a motor field frame having nonrotatable trunnions at its respectively opposite ends; of wheels fitted to rotate on said trunnions; independent shafts respectively connected in rigid rela tion with said wheels, and mounted to rotate in said frame in axial alinement, in concentric relation with said trunnions; armatures respectively carried by said shafts; distinct and independently controllable magnetic fields for the respective armatures, comprising,main polar projections in said frame respectively local to said armatures, auxiliary. polar projections in said frame respectively ocal to said armatures and interposed between said main polar projections, coils respectively arranged to energize said main polar projections and auxiliary polar rojections, means connecting said main 1eld coils in shunt relation to the armature windings, means connecting said auxiliary field relation with said trunnions; armatures respectivelymarried by said shafts; distinct and independently controllable magnetic fields. for the respective armatures, comprising main olar projections in said frame respectively ocal to said armatures, auxiliary polar projections in said frame respectively local to said armatures and interposed between-said main olar projections, coils res eotively arranged to energize said vmain po ar projections and auxiliary polar rojections, means connecting said main field coils in shunt relation to the armature windings, means connecting said auxiliary field coils in series relation to the armature windings, and, means arranged to adjustably vary the strength of the current in said main field inde endently of said auxiliary field, substantially as set forth. 3. The combination with a motor field frame. provided with two distinct and independently controllable fields comprising polar projections; of nonrotatable trunnions at the respectively oppositeends of said frame; meanaindependent of said polar projections, detachably connecting said trunnions wlth said frame; wheels fitted to rotate on said trunnions; independent shafts respectively carried by said shafts in opera- 10 frame,
tive relation with said polar projections, substantially as set forth.
4. The combination wltli a motor field of nonrotatable trunnions at the respectlvely op osite ends of said frame;
means detachab y connecting said trunnions with said frame; wheels fitted to rotate on said trunnions; independent shafts respectures respectively vania, this 23rd day tively mounted to rotate in said frame, in axial alinement, in concentric relation with said trunnions; means detaehably connecting said' wheels with said shafts; and, armacarried by said shafts in operative relation with polar projections within said frame, substantially as set forth. In testimony whereof, I have hereunto signpd my name at Philadelphia, Pennsylof July 1907. JOSEPH 'LEDWINKA.
Witnesses:
ARTHUR E. PAIGE,
ANNA F. GETZRFREAD.
US38686007A 1907-08-03 1907-08-03 Electrically-proppeled vehicle. Expired - Lifetime US887483A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2625116A (en) * 1949-04-02 1953-01-13 Dalton William Locomotive wheel and axle drive assembly
US3395770A (en) * 1966-10-03 1968-08-06 Caterpillar Tractor Co Cooling means for vehicle electric drive components
US3693745A (en) * 1969-05-09 1972-09-26 Nipkien Driving axle for electric vehicles
US5172784A (en) * 1991-04-19 1992-12-22 Varela Jr Arthur A Hybrid electric propulsion system

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2625116A (en) * 1949-04-02 1953-01-13 Dalton William Locomotive wheel and axle drive assembly
US3395770A (en) * 1966-10-03 1968-08-06 Caterpillar Tractor Co Cooling means for vehicle electric drive components
US3693745A (en) * 1969-05-09 1972-09-26 Nipkien Driving axle for electric vehicles
US5172784A (en) * 1991-04-19 1992-12-22 Varela Jr Arthur A Hybrid electric propulsion system

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