US705854A - Generating apparatus for car-lighting. - Google Patents

Generating apparatus for car-lighting. Download PDF

Info

Publication number
US705854A
US705854A US9532102A US1902095321A US705854A US 705854 A US705854 A US 705854A US 9532102 A US9532102 A US 9532102A US 1902095321 A US1902095321 A US 1902095321A US 705854 A US705854 A US 705854A
Authority
US
United States
Prior art keywords
dynamo
wheel
wheels
friction
shaft
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US9532102A
Inventor
Albert F Madden
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
CHARLES A GOULD
Original Assignee
CHARLES A GOULD
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by CHARLES A GOULD filed Critical CHARLES A GOULD
Priority to US9532102A priority Critical patent/US705854A/en
Application granted granted Critical
Publication of US705854A publication Critical patent/US705854A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • 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
    • B61C9/48Transmission systems in or for locomotives or motor railcars with electric motor propulsion with motors supported on vehicle frames and driving axles, e.g. axle or nose suspension
    • B61C9/50Transmission systems in or for locomotives or motor railcars with electric motor propulsion with motors supported on vehicle frames and driving axles, e.g. axle or nose suspension in bogies

Definitions

  • This invention relates to improvements in generating apparatus for car or vehicle lighting; and its object is to provide means for driving the generating-dynamo from a car or vehicle axle without subjecting the dynamo to the jarring or pounding action which would result from direct connection and with out the intervention of belting, which has been found to be unreliable and subject to rapid deterioration.
  • the dynamo is supported on the usual car-truck and is therefore spring-supported relatively to the vehiole-axle, so as to be fully protected from jarring.
  • Transmitting-wheels are fastened on the vehicle axle and on the dynamo-shaft, and an intermediate wheel is arranged to engage with the aforesaid wheels and to drive the dynamo from the car-axle, while permitting free relative movement.
  • I also provide means for adj ustingthe pressure with which the aforesaid wheels engageone anotherand. for regulating such pressure automatically to prevent overspeeding of the dynamo.
  • Figure l is a plan view of a portion of a vehicle-truck with my invention applied thereto.
  • Fig. 2 is a longitudinal vertical section of same.
  • Fig. 3 is an end elevation of the truck.
  • the truck-frame 1 is yieldingly supported by the usual spring devices 2 on the car-axle 3, and the dynamo 4: is fastened by suitable meansfor example, braces or straps 4-on said truck-frame.
  • a wheel 5 is fast on the car-axle 3
  • another wheel 6 is fast on the dynamo-shaft
  • a third wheel 7 is arranged to engage with these wheels and is yieldingly supported by a freely-swinging shaft 8, journaled in a swivel bearing or hanger 9 on the truck-frame.
  • This wheel 7 is preferably intermediate in diameter be- 50 tween the two wheels 5 6 and is arranged to engage both said Wheels obliquely, the tangential lines of contact (indicated by dotted lines) being substantially at or not less than at right angles, so as to avoid any binding action'when the wheels 5 6 are rotating in the direction of the arrows in Fig. 2.
  • the amount of pressure on the wheels is substantially the same whether the car-axle be moving in one direction or the other, so that the dynamo is operated in the same manner irrespective of the direction of movement of the-car.
  • the wheels 5, 6, and 7 engage with one another by an elastic frictional engagement effected by a tire of rubber or equivalent material on one or more of the wheels.
  • a tire of rubber or equivalent material on one or more of the wheels.
  • the wheel 7 may be removed readily for repairs to its tire, and said tire may beformed as a solid ring.
  • a rubher tire I may use a tire formed of wooden segments or other suitable material.
  • I provide a pressure-applyin g device consisting of spring13 and a lever 10, engaged by said spring and pivotally supported from a bridgepiece 11, attached totruck-frame 1,'said device being connected by a pivoted link 12 with the shaft 8 of said wheel, which shaft runs freely in abearing in said link.
  • Means for adjusting the position and pressure of this lever are provided, consisting of an adj ustable block 14*, on which said lever is pivoted and acting as a nut on a screw-shaft 14, mounted to turn in a bracket on the truckframe and provided with operating means, such as a wrench-hold 15.
  • This shaft may be prolonged upwardly, so as to be accessible from the interior of the car.
  • the leverlO is raised by turning this screw-shaft until the wheel 7 is free of one or both of the wheels 5 6.
  • the lever 10 may 10o be caused to press the wheel 7 with any desired amount of pressure on the wheels 5 6. This pressure should be such that under nor.-
  • the pressure of contact of the wheels 5 6 7 will be sufficient to transmit the requisite power for driving the dynamo without slipping; but when the car is traveling at an unusually high speed the tendency will be to generate greater electromotive force and a correspondingly-greater current in the dynamo than is desirable for the consumption-circuit, and in such case the frictional contact between the wheels will allow a certain amount of relative slip, so as to tend to keep the dynamo speed and the generated electromotive force within fairly-equable limits.
  • I provide asolenoid'23, attached to leverlO and cooperating with a core 24, connected to the truck-frame, to pull the lever 10 against the pressure of the spring 13.
  • This solenoid is connected in or across the circuit connection leading to the consumptioncircuit or to the storage battery and is therefore responsive to the electromotive force and also to the current generated by the dynamo, and as both of them are dependent on the speed of the dynamo this device is also responsive to such speed.
  • this solenoid will act to pull off the wheel 7 to relieve the pressure of contact to a certain ex tent, and thereby enable relative slip of the wheels sufliciently to prevent over-speeding of the dynamo.
  • G The combination of a rotary part of a vehicle running-gear, a friction-wheel mounted thereon,a dynamo flexibly and independently mounted with respect to the runningear, a friction-wheel on the dynamo-shaft, a screwthreaded rod mounted on the vehicle-frame, a block engaging said rod, a link pivoted on the vehicle-frame, one end of said link connected to said block, a spring-pressed lever having one end connected to said pivoted link and the other end having a spring connection with the vehicle-frame, a swinging arm supported at one end from said lever intermediate its ends and carrying at its other end a transmitting-wheel to engage the frictionwheels on the dynamo-shaft and the vehicle running-gear.

Landscapes

  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Connection Of Motors, Electrical Generators, Mechanical Devices, And The Like (AREA)

Description

No. 705,854. Patented-July 29,1902. I A; F, MADDEN.
GENERATING APPARATUS FOR CAR LIGHTING. A uciuo filed rebus z, 1902.
No. 705,854. Patented July 29, I902.
A; F'. MADDEN. I GENERATINGAPPABATUS'FOR GAR LIGHTING.
(Application filed Feb. 24, 1802.)
2 S.haets-Sheet 2.
(No Model.)
. fnaanfir W 9'- M m: "cums Psrzas co. Pno'rauwoq vusmunron. n. c.
UNITED I STATES.
PATENT YOFFICE.
ALBERT F. MADDEN, OF NEWARK, NEW JERSEY, ASSIGNOR TO CHARLES A. GOULD, OF 'NEW YORK, N. Y.
GEN ERATlNG-APPARATUS FOR CAR-LIGHTING.
SPECIFICATION forming part of Letters Patent N 0. 705,854, dated July 29, 1902. Application filed February 24, 1902. Serial N 95,321. (No model.)
To all whom, it may conccrm H Be it known that I, ALBERT F. MADDEN, a citizen of the United States, residing at N ewark, in the county of Essex and State of New 5 Jersey, have invented certain new and useful Improvements in Generating Apparatus for Car-Lighting, of which the following is a specification.
This invention relates to improvements in generating apparatus for car or vehicle lighting; and its object is to provide means for driving the generating-dynamo from a car or vehicle axle without subjecting the dynamo to the jarring or pounding action which would result from direct connection and with out the intervention of belting, which has been found to be unreliable and subject to rapid deterioration.
In my present invention the dynamo is supported on the usual car-truck and is therefore spring-supported relatively to the vehiole-axle, so as to be fully protected from jarring. Transmitting-wheels are fastened on the vehicle axle and on the dynamo-shaft, and an intermediate wheel is arranged to engage with the aforesaid wheels and to drive the dynamo from the car-axle, while permitting free relative movement. I also provide means for adj ustingthe pressure with which the aforesaid wheels engageone anotherand. for regulating such pressure automatically to prevent overspeeding of the dynamo.
In the accompanying drawings, Figure l is a plan view of a portion of a vehicle-truck with my invention applied thereto. Fig. 2 is a longitudinal vertical section of same. Fig. 3 is an end elevation of the truck.
The truck-frame 1 is yieldingly supported by the usual spring devices 2 on the car-axle 3, and the dynamo 4: is fastened by suitable meansfor example, braces or straps 4-on said truck-frame. A wheel 5 is fast on the car-axle 3, andanother wheel 6 is fast on the dynamo-shaft, while a third wheel 7 is arranged to engage with these wheels and is yieldingly supported by a freely-swinging shaft 8, journaled in a swivel bearing or hanger 9 on the truck-frame. This wheel 7 is preferably intermediate in diameter be- 50 tween the two wheels 5 6 and is arranged to engage both said Wheels obliquely, the tangential lines of contact (indicated by dotted lines) being substantially at or not less than at right angles, so as to avoid any binding action'when the wheels 5 6 are rotating in the direction of the arrows in Fig. 2. With the parts in this relation the amount of pressure on the wheels is substantially the same whether the car-axle be moving in one direction or the other, so that the dynamo is operated in the same manner irrespective of the direction of movement of the-car.
The wheels 5, 6, and 7 engage with one another by an elastic frictional engagement effected by a tire of rubber or equivalent material on one or more of the wheels. I prefer to make the wheels 5 6 with flanged metal tires and to make the intermediate wheel 7 v with a rubber tire 7, that is Wedge-shaped or tapered and enters in the groove or between the flanges of the wheels5 6, thus obtaining great transmitting capacity without undue pressure. The wheel 7 may be removed readily for repairs to its tire, and said tire may beformed as a solid ring. Insteadofa rubher tire I may use a tire formed of wooden segments or other suitable material.
To press the wheel 7 onto the wheels 5 6, I provide a pressure-applyin g device consisting of spring13 and a lever 10, engaged by said spring and pivotally supported from a bridgepiece 11, attached totruck-frame 1,'said device being connected by a pivoted link 12 with the shaft 8 of said wheel, which shaft runs freely in abearing in said link. Means for adjusting the position and pressure of this lever are provided, consisting of an adj ustable block 14*, on which said lever is pivoted and acting as a nut on a screw-shaft 14, mounted to turn in a bracket on the truckframe and provided with operating means, such as a wrench-hold 15. This shaft may be prolonged upwardly, so as to be accessible from the interior of the car. Then it is desired to disconnect the dynamo entirely from 5 the driving-axle, the leverlO is raised by turning this screw-shaft until the wheel 7 is free of one or both of the wheels 5 6. By turning this shaft so as to screw down the pivot or bearing block 13 the lever 10 may 10o be caused to press the wheel 7 with any desired amount of pressure on the wheels 5 6. This pressure should be such that under nor.-
.mal or average conditions of car-speed and of load on the consumption-circuit the pressure of contact of the wheels 5 6 7 will be sufficient to transmit the requisite power for driving the dynamo without slipping; but when the car is traveling at an unusually high speed the tendency will be to generate greater electromotive force and a correspondingly-greater current in the dynamo than is desirable for the consumption-circuit, and in such case the frictional contact between the wheels will allow a certain amount of relative slip, so as to tend to keep the dynamo speed and the generated electromotive force within fairly-equable limits.
It will be understood that other means will be provided for open-circuiting the dynamo when its speed is below that necessary for generation of electromotive force sufficient for the consumption-circuit, particularly if the latter be connected with a storage battery. Such means may be contained within the box 20 on the dynamo,but is not herein shown, as it forms no part of my present invention and is now in common use for this purpose. The consumption-circuit is indicated at 21 in Fig. 1, and 22 indicates the storage battery connected therewith.
To further control the pressure of the contacting wheels 5 6 7, I provide asolenoid'23, attached to leverlO and cooperating with a core 24, connected to the truck-frame, to pull the lever 10 against the pressure of the spring 13. This solenoid is connected in or across the circuit connection leading to the consumptioncircuit or to the storage battery and is therefore responsive to the electromotive force and also to the current generated by the dynamo, and as both of them are dependent on the speed of the dynamo this device is also responsive to such speed. Therefore when the dynamo attains a certain limit of speed this solenoid will act to pull off the wheel 7 to relieve the pressure of contact to a certain ex tent, and thereby enable relative slip of the wheels sufliciently to prevent over-speeding of the dynamo.
It will be noted that there is nothing in the above-described construction that interferes with the free movement of the car-axle relatively to the car-truck. As the axle moves up and down the wheel 7 swings laterally on the pivoted link 12 and the lever 10 is moved but slightly, while the pressure from spring 13 is applied at all times with considerable leverage to the frictional contact. The elastic nature of the tire 7' maintains a smooth and even contact and driving connection during these movements.
Having thus described my, invention, the following is what I claim as new therein and desire to secure by Letters Patent:
1. The combination of a rotary part of a vehicle running-gear, a friction-wheel mounted thereon, a dynamo flexibly and independently mounted with respect to the running-gear, a friction-wheel on the dynamo-shaft, a transmitting-wheel engaging the wheels on the running-gear and dynamo-shaft, said transmitting-wheel mounted to swing in an are which intersects the peripheries of both the said wheels.
2. The combination of a rotary part of a vehicle running-gear,a friction-wheel mounted thereon,a dynamo'flexibly and independently mounted with respect to the runningear, a friction-wheel on the dynamo-shaft, a transmitting-wheel engaging the wheels on the runninggear and dynamo, the tangential lines of contact between the several wheels being inclined to one another at an angle not less than a right angle.
3. The combination of a rotary part of a vehicle running-gear, a friction-wheel mounted thereon,a dynamo flexibly and independently mounted with respect to the running-gear, a friction-wheel on the dynamo-shaft, a transmitting-wheel engaging the wheels on the ru nning-gear and dynamo-shaft and mounted in the free end of a swinging link, said link connected to a lever flexibly mounted on the vehicle-frame.
4. The combination of a rotary part of a vehicle running-gear, a friction-wheel mounted thereon,a dynamo flexibly and independently mounted with respect to' the running-gear, a friction-wheel on the dynamo-shaft, a transmitting-wheel engaging the wheels on the running-gear and dynamo-shaft and mounted in the free end of a swinging link, said link connected to a lever flexibly and adjustably mounted on the vehicle-frame.
5. The combination of a rotary part of a vehicle running-gear, a friction-wheel mounted thereon,a dynamo flexibly and independently mounted with respect to the running-gear, a friction-wheel on the dynamo-shaft, a trans mitting-wheel engaging the wheels on the running-gear and dynamo-shaft and mounted in the free end of a swinging link, said link connected to a lever flexibly mounted on the vehicle-frame, said lever having spring connection at one end with the vehicle-frame and connected at its other end end with adjusting means to adjust the pressure of the said transmitting-wheel 011 thefriction-wheels of the dynamo and vehicle running-gear.
G. The combination of a rotary part of a vehicle running-gear, a friction-wheel mounted thereon,a dynamo flexibly and independently mounted with respect to the runningear, a friction-wheel on the dynamo-shaft, a screwthreaded rod mounted on the vehicle-frame, a block engaging said rod, a link pivoted on the vehicle-frame, one end of said link connected to said block, a spring-pressed lever having one end connected to said pivoted link and the other end having a spring connection with the vehicle-frame, a swinging arm supported at one end from said lever intermediate its ends and carrying at its other end a transmitting-wheel to engage the frictionwheels on the dynamo-shaft and the vehicle running-gear.
7. The combination of a rotary part of a vehicle running-gear, a friction-wheel mounted thereon, a dynamo flexibly and independently mounted with respect to the running-gear, a friction-wheel on the dynamo-shaft, a transmitting-wheel engaging the wheels on the running-gear and dynamo-shaft and mounted in the free end of a swinging link, said link connected to a lever flexibly mounted on the vehicle-frame, said lever having spring connection at one end with the vehicle-frame and connected at its other end with adjusting means, and having connected therewith an electrical device energized from the dynamo to control the pressure of the transmittingwheel upon the friction means.
8. The combination of a rotary part of a vehicle running-gear, a friction-wheel mounted thereon, a dynamo flexibly and independently mounted with respect to the running-gear, a friction-wheel on the dynamo-shaft, a transmitting-wheel engagingthe wheels on the runmounted with respect to the running-gear, a friction-wheel on the dynamo-shaft, a trans-- mitting-wheel flexibly supported from the vehicle-frame and engaging the said friction- Wheels, said transmitting-wheel being free to move in a direction from one of said frictionwheels toward the other while maintaining contact with both of said-friction-wheels.
10. The combination of a rotary part of a vehicle runningear, a friction-wheel mounted thereon, a dynamo flexibly and independently mounted with respect to the running-gear, a friction-wheel on the dynamo-shaft, a transmitting-wheel flexibly supported from the vehicle-frame and engaging the said frictionwheels, said transmitting-wheel being free to move in a direction from one of said friction- Wheels toward the other while maintaining contact with both of said friction wheels, means to adjust the pressure of said transmitting-wheel upon the friction-Wheels.
11. The combination of arotary part of avehicle running-gear, a friction-wheel mounted thereon, a dynamo flexibly and independently mounted with respect to the running-gear, a friction-Wheel on the dynamo-shaft, a transmitting-wheel flexibly supported from'the vehicle-frame and engaging the said frictionwheels, said transmitting-wheel being free to move in a direction from one of said frictionwheels toward the other while maintaining contact with both of said friction wheels, means operated from the interior of the vehicle to adjust the pressure of said transmitting-wheel upon the friction-wheels.
ALBERT F. MADDEN. Witnesses:
J. GREEN, A. P. KNIGHT.
US9532102A 1902-02-24 1902-02-24 Generating apparatus for car-lighting. Expired - Lifetime US705854A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US9532102A US705854A (en) 1902-02-24 1902-02-24 Generating apparatus for car-lighting.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US9532102A US705854A (en) 1902-02-24 1902-02-24 Generating apparatus for car-lighting.

Publications (1)

Publication Number Publication Date
US705854A true US705854A (en) 1902-07-29

Family

ID=2774384

Family Applications (1)

Application Number Title Priority Date Filing Date
US9532102A Expired - Lifetime US705854A (en) 1902-02-24 1902-02-24 Generating apparatus for car-lighting.

Country Status (1)

Country Link
US (1) US705854A (en)

Similar Documents

Publication Publication Date Title
US2054644A (en) Motor drive for toy trucks or the like
US705854A (en) Generating apparatus for car-lighting.
US1199752A (en) Transportation system for light-traffic lines.
US598403A (en) Acker
US635446A (en) Means for generating electricity from car-wheel axles.
US458249A (en) Electric power-brake
US698372A (en) Lifting-jack for cars, & c.
US1020794A (en) Trolley.
US769576A (en) Car-brake for railroads.
US662026A (en) Power device for road-vehicles.
US640770A (en) Friction-gearing.
US985889A (en) Brake mechanism.
US398207A (en) Mechanism for oars
US356955A (en) Half to william b
US632421A (en) Means for generating electricity from car-wheel axles.
US368265A (en) woods
US450652A (en) Electric loco-motor
US564334A (en) Means for generating electricity from car-wheels
US616264A (en) Car-truck equipment
US474984A (en) Electric locomotive
US400522A (en) valentine
US1317377A (en) Truck for
US467257A (en) mcarthur
US494479A (en) henry
US443661A (en) Rudolph m