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US1246691A - Starting mechanism for automobiles. - Google Patents

Starting mechanism for automobiles. Download PDF

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Publication number
US1246691A
US1246691A US1802415A US1802415A US1246691A US 1246691 A US1246691 A US 1246691A US 1802415 A US1802415 A US 1802415A US 1802415 A US1802415 A US 1802415A US 1246691 A US1246691 A US 1246691A
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Prior art keywords
armature
field
winding
motor
magnet
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Expired - Lifetime
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US1802415A
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Charles E Wilson
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CBS Corp
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Westinghouse Electric and Manufacturing Co
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Priority to US1802415A priority Critical patent/US1246691A/en
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Publication of US1246691A publication Critical patent/US1246691A/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F02COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
    • F02NSTARTING OF COMBUSTION ENGINES; STARTING AIDS FOR SUCH ENGINES, NOT OTHERWISE PROVIDED FOR
    • F02N15/00Other power-operated starting apparatus; Component parts, details, or accessories, not provided for in, or of interest apart from groups F02N5/00 - F02N13/00
    • F02N15/02Gearing between starting-engines and started engines; Engagement or disengagement thereof
    • F02N15/04Gearing between starting-engines and started engines; Engagement or disengagement thereof the gearing including disengaging toothed gears
    • F02N15/06Gearing between starting-engines and started engines; Engagement or disengagement thereof the gearing including disengaging toothed gears the toothed gears being moved by axial displacement

Definitions

  • My invention relates to starting mecha nisms for automobiles, and particularly to such mechanisms as embody dynamo-electric machines having reciprocating armatures for actuating pinions into and out of operative connection with the shafts of internal combustion engines.
  • My invention hasfor its object toprovide a simple arrangement, whereb ture of a dynamo-electric mac ine may be reciprocated longitudinally with astrong.
  • the normal magnetic field is produced by the series field winding, and full torque. is effective to rotate the armature to crank the engine.
  • FIG. 2 is a diagrammatie view ofcircuits and apparatus embodying my invention
  • a fly wheel'1,'only a portion of which is shown, is provided with car teeth 2.
  • electric motorv 3 has a eld-magnet core structure 4 and a distributed series field winding 5.
  • the motor armature 6and the armature shaft 7 are arranged for longitudinal movement relatively to the motor frame.
  • A'spring 8 which is interposed between a collar member 9 on the armature shaft and one of the motor bearings 10, tends to maintain the armature in a displaced position relatively to the core structure, as illustrated.
  • the commutator cylinder 11 is of such length that it is always in engagement with coacting brushes 12 that are secured to the motor frame.
  • the armature shaft 7 is provided with a pinion 13 which coacts with the gear teeth 2 in the engine fly wheel.
  • the fieldmagnet core structure may be provided with any suitable number of slots as, for example, eighteen which are numbered from 101 to 118. The number taken is smaller than that preferably employed in practice, but is chosen in order to simplify the illustration and ex 'lanation of my invention.
  • the series fie d-magnet winding 5 is shown as a closed wave winding but any other suitable type of winding may be substituted therefor.
  • the winding 1s arranged to produce four field-magnet oles, the normal positions of which are in icated at N, S, N and S, and the displaced positions of which are indicated at N, S, N and S.
  • the pitch or throw of the windings is five slots which is slightly greater than the pole pitch.
  • the series winding 5 is provided with a pair of terminals or connections A and B for use during normal operation of the motor and a second pair of terminals C and D for temporary operation, while the motor 1s being operatively connected to the engine.
  • the connections of the field-magnet winding 5 are controlled by a switching mechanism 15 that is provided with contact segments 16, only two of which are shown, which coact with contact fingers 17.
  • the position of the controller 15 is controlled by a unidirectional ratchet mechanism 18 that is actuated by a starting pedal lever 19.
  • the ratchet mechanism 18 comprises a notched disk 21, a pair of pivotally mounted levers 22 which carry pawls 23 for coacting with the disk 21 and a slotted bar 24 that is connected to the pedal lever 19 by a link 25.
  • a spring 26 normally retains the pedal lever and the ratchet mechanism in their respective illustrated positions.
  • the various parts are in their respective illustrated positions, with the pinion 13 out of engagement with the gear teeth 2 and the controller 15 in its inoperative or off position.
  • the pedal lever 19 is actuated forwardly against the tension of the spring 26 to cause a corresponding forward movement of the link 25, the bar 24 and the lever 22.
  • the initial engagement of the contact segments 16 with respective pairs of the corresponding contact fingers 17 establishes a circuit which extends from the ungrounded side of the battery through contact fingers 17 and contact segment 16, terminal B, the field magnet winding 5, terminal A, contact fingers 17, contact segment 16 and motor armature 6 to ground, and thence back to the battery.
  • the field-magnet winding 5 will then be energized to produce four poles, the position of which is indicated at N, S, N, S.
  • the controller 15 When the pedal lever 19 has reached the limit of its forward movement, the controller 15 will have been rotated through an angle of substantially forty-five degrees.
  • the contact fingers 17 then engage the lower extremities of the contact segments 16 and the motor circuit is arranged as above described, except that the field magnet Winding 5 is connected through the terminals C and D instead of the terminals A and B.
  • the magnetic poles thus produced are in their normal positions, as indicated at N, S, N and S. Normal torque is now effective to rotate the armature, and the fly wheel 2is rotated to crank the engine.
  • the pedal lever 19 When the engine starts under its own power, the pedal lever 19 is released by the operator and the spring 26 actuates the lever 19 and its connected mechanism to the left to return them to their respective illustrated positions.
  • the armature 6 will then be returned to its displaced position by the spring 7, which has been under compression.
  • the unidirectional ratchet mechanism insures that thecircuit cannot be completed through the connections A B to again shift the armature. This action would occur' if the switch were actuated to its 013" position in a counter clockwise direction.
  • the combination with a dynamo-electric machine having a field-magnet winding and a longitudinally shiftable armature of means for controlling the connections of said field-magnet winding to cause an angular displacement of the magnetic field while the armature is shifted to its operative position and to establish the normal magnetic field for rotatin said armature.
  • a starting mechanism the combination with a dynamo-electric machine having a fieldmagnet winding and a longitudinally shiftable armature, of meansfor controlling the connections of said field magnet winding whereby the magnetic field is'angularly displaced by substantially 9O electrical degrees for shifting the armature longitudinally and the magnetic field is in its normal 7 position for rotating said armature.
  • a startlng mechanism the combination with a dynamo-electric machine having a distributed field-magnet winding and a longitudinally shiftable armature, of means for causing an angular displacement of the magnetic field produced by said winding While the armature is being shifted to its central position and for causing the normal magnetic field to be established for rotating said armature.
  • a unidirectional switching device for controlling the connections of said field-magnet winding to cause an angular displacement of the magnetic field while the armature is shifted to its operative position and to establish the normal magnetic field for rotating said armature.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Dc Machiner (AREA)

Description

c. E. wnson.
STARTING MECHANISM FOR AUTOMOBILES.
APPLICATION FILED MAR-30.1915.
7 z m Old! I V B M R H B a 0 ml I ra/J 4 M m W Y m m i. m P o i w it K. 0, 0L 6, Oi 9 I A l x I m w 1 m 9 F & M s M m m 1 w .TsTeil-usrAtr t v 0mm.
oHAnnEs E. wnison; or wink-mesons, v1 mmsrnvnma, 'nssrerroa 'ro wnsrmenousn nLEc'rnIc' Nn MANUFACTURING COMPANY, A conroan'rrorr or rmmsrn- To all whom it may concern:
Be it known that I, CnArLEs Wa o s and State of following is a specification.
My invention relates to starting mecha nisms for automobiles, and particularly to such mechanisms as embody dynamo-electric machines having reciprocating armatures for actuating pinions into and out of operative connection with the shafts of internal combustion engines.
My invention hasfor its object toprovide a simple arrangement, whereb ture of a dynamo-electric mac ine may be reciprocated longitudinally with astrong.
force, while little or no torque is effective to rotate the armature. I
It has been proposed, heretofore, to provide electric starting motors with displaced" armatures, but they possess certain disadvantages, in that It is necessary to employ auxiliary switching mechanisms either for temporarily short circuiting the armature or for inserting resistance in circuit with it.
Such an arrangement is necessary because, in the displaced position of the armature, the torque is sufliciently high to rotate the armature at a comparatively high rate of speed before the gear wheels are completely meshed.
It is also diflicult to effect the meshing of the gear-wheels when there is considerable lateral pressure between the coacting teeth. When no torque is effective to rotate the armature during its longitudinal movement, the gear wheels may be readily meshed because there is little or no lateral pressure between their respective teeth to retard their relative slidable movements.
I provide .an electric motor having a distributed series field-magnet winding that is provided with two pairs of terminals by means ofwhich current may be supplied at different points. When current is supplied through one pair of terminals, the fieldmagnet oles produced by the winding are displace approximately 90 electrical degrees and occupy positions corresponding substantially to the positions of the poles produced in the armature core by the armathe arma- I Specification of Letters Patent; Pate ted N v, 13, 1917 amiucafld fllcdKar-ch so, 1915 Serial m. 18,024.
Since the magnetic fieldis shifted to-such p positionthat it substantially coincides with citizen of the United States, and ajre'sident of Wilkinsbur in the county ofAllegheny ennsylvania, have j invented a new and useful Improvementin Starting Mechanism .for Automobiles, of which the tween the motor and the engine shaft. By
chan'ging'the connections, the normal magnetic field is produced by the series field winding, and full torque. is effective to rotate the armature to crank the engine.
The details of my invention will be described in connection with the accompanying drawing, inwhich Figure 1 is a view,
partially in section and partially in elevation, of an engine fly wheel, with my invention applied thereto. Fig. 2 is a diagrammatie view ofcircuits and apparatus embodying my invention,
A fly wheel'1,'only a portion of which is shown, is provided with car teeth 2. An
electric motorv 3 has a eld-magnet core structure 4 and a distributed series field winding 5. The motor armature 6and the armature shaft 7 are arranged for longitudinal movement relatively to the motor frame.
A'spring 8, which is interposed between a collar member 9 on the armature shaft and one of the motor bearings 10, tends to maintain the armature in a displaced position relatively to the core structure, as illustrated. The commutator cylinder 11 is of such length that it is always in engagement with coacting brushes 12 that are secured to the motor frame. The armature shaft 7 is provided with a pinion 13 which coacts with the gear teeth 2 in the engine fly wheel.
Referring particularly to Fig. 2, the fieldmagnet core structure may be provided with any suitable number of slots as, for example, eighteen which are numbered from 101 to 118. The number taken is smaller than that preferably employed in practice, but is chosen in order to simplify the illustration and ex 'lanation of my invention. The series fie d-magnet winding 5 is shown as a closed wave winding but any other suitable type of winding may be substituted therefor. The winding 1s arranged to produce four field-magnet oles, the normal positions of which are in icated at N, S, N and S, and the displaced positions of which are indicated at N, S, N and S. The pitch or throw of the windings is five slots which is slightly greater than the pole pitch. The series winding 5 is provided with a pair of terminals or connections A and B for use during normal operation of the motor and a second pair of terminals C and D for temporary operation, while the motor 1s being operatively connected to the engine.
The connections of the field-magnet winding 5 are controlled by a switching mechanism 15 that is provided with contact segments 16, only two of which are shown, which coact with contact fingers 17. The position of the controller 15 is controlled by a unidirectional ratchet mechanism 18 that is actuated by a starting pedal lever 19.
The ratchet mechanism 18 comprises a notched disk 21, a pair of pivotally mounted levers 22 which carry pawls 23 for coacting with the disk 21 and a slotted bar 24 that is connected to the pedal lever 19 by a link 25. A spring 26 normally retains the pedal lever and the ratchet mechanism in their respective illustrated positions.
It may be assumed that the various parts are in their respective illustrated positions, with the pinion 13 out of engagement with the gear teeth 2 and the controller 15 in its inoperative or off position. To start the motor, the pedal lever 19 is actuated forwardly against the tension of the spring 26 to cause a corresponding forward movement of the link 25, the bar 24 and the lever 22. The pawl 23, that is carried by the upper of the levers 22 and is in engagement with one of the notches of the disk, actuates the latter in a clockwise direction.
The initial engagement of the contact segments 16 with respective pairs of the corresponding contact fingers 17 establishes a circuit which extends from the ungrounded side of the battery through contact fingers 17 and contact segment 16, terminal B, the field magnet winding 5, terminal A, contact fingers 17, contact segment 16 and motor armature 6 to ground, and thence back to the battery. The field-magnet winding 5 will then be energized to produce four poles, the position of which is indicated at N, S, N, S.
Since the magnetic field thus produced is approximately 90 electrical degrees from the normal magnetic field, little or no torque is effective to rotate the armature. However, a slight rotation of the armature facilitates the meshing of the pinion 13 and the gear teeth 2, and this result is accomplished in the present invention by arranging the pitch of the field magnet winding slightly greater than the pole pitch. This arrangement insures that a slight torque will be effective when the connections are arranged to establish the circuit above described.
Because of the low resistance of the oilcult, a heavy current traverses the motor windings, and the poles produced in the field magnet structure exert a strong magnetic force to shift the armature 6 to its central position and thereby effect the meshing of the pinion 12 with the gear teeth 2. Further movement of the controller 15, because of the actuation of the pedal lever 19, serves to connect the terminals C and D in circuit and then to effect the separation of the'contact segments 16 and the contact fingers 17 that are connected to the terminals A and B.
When the pedal lever 19 has reached the limit of its forward movement, the controller 15 will have been rotated through an angle of substantially forty-five degrees. The contact fingers 17 then engage the lower extremities of the contact segments 16 and the motor circuit is arranged as above described, except that the field magnet Winding 5 is connected through the terminals C and D instead of the terminals A and B. The magnetic poles thus produced are in their normal positions, as indicated at N, S, N and S. Normal torque is now effective to rotate the armature, and the fly wheel 2is rotated to crank the engine.
When the engine starts under its own power, the pedal lever 19 is released by the operator and the spring 26 actuates the lever 19 and its connected mechanism to the left to return them to their respective illustrated positions. The lower lever 22, which has moved relatively to the disk 21 a sufiicient distance to engage the succeeding notch, then rotates the disk 18 and the controller 15 in a clockwise direction to efi'ect the disengagement ofthe contact fingers 17 and the contact segments 16 and thereby openlthe motor circuit. The armature 6 will then be returned to its displaced position by the spring 7, which has been under compression. The unidirectional ratchet mechanism insures that thecircuit cannot be completed through the connections A B to again shift the armature. This action would occur' if the switch were actuated to its 013" position in a counter clockwise direction.
If the operator fails to open the motor circuit immediately after the engine starts, the motor will be driven at a rapidly increasing speed. The counter electromotive force of the motor is thereby increased to reduce the current traversing its windings to such a value that the longitudinal pulls exerted by the field magnet poles is less than the force of the spring 8, whereupon the armature is shifted to its displaced position and the pinion 13 is disengaged from the gear teeth 2. It is obvious, therefore, that no damage may be caused by a failure to open the switch at the proper time.
It will be understood that the number of field-magnet poles shown and described is illustrative only, and that a motor having any convenient number of poles may be e ployed. It is obvious, also, that the arrangement of the field magnet winding is shown by way of example only, and that any other suitable arrangement may be substituted therefor. Other changes may be made within the scope of the appended claims without departing from the spirit of my invention.
.1 claim as my invention:
1. In a starting mechanism, the combination with a dynamo-electric machine having a field-magnet winding and a longitudinally shiftable armature, of means for causin an angular displacement of the magnetic eld produced by said winding whilethe armature is being shifted to its central position.
and for causing the normal magnetic field to be established for rotating said armature.
2. In a starting mechanism, the combination with a dynamo-electric machine having a field-magnet winding and a longitudinally shiftable armature, of means for successively causing an angular displacement of themagnetic field produced by said winding while the armature is being shifted to its central position and for causing the normal magnetic field to be established for rotating said armature.
3. In a starting mechanism, the combination with a dynamo-electric machine having a field-magnet winding and a longitudinally shiftable armature, of means for controlling the connections of said field-magnet winding to cause an angular displacement of the magnetic field while the armature is shifted to its operative position and to establish the normal magnetic field for rotatin said armature.
4. n a starting mechanism, the combination with a dynamo-electric machine having a fieldmagnet winding and a longitudinally shiftable armature, of meansfor controlling the connections of said field magnet winding whereby the magnetic field is'angularly displaced by substantially 9O electrical degrees for shifting the armature longitudinally and the magnetic field is in its normal 7 position for rotating said armature.
5. In a startlng mechanism, the combination with a dynamo-electric machine having a distributed field-magnet winding and a longitudinally shiftable armature, of means for causing an angular displacement of the magnetic field produced by said winding While the armature is being shifted to its central position and for causing the normal magnetic field to be established for rotating said armature.
6. In a starting mechanism, the combination with a dynamo-electric machine having a distributed field-magnet winding and a longitudinally shiftable armature, of a unidirectional switching device for controlling the connections of said field-magnet winding to cause an angular displacement of the magnetic field while the armature is shifted to its operative position and to establish the normal magnetic field for rotating said armature.
7. In a starting mechanism, the combination with a dynamo-electric machine having a distributed field-magnet winding and a longitudinally shiftable armature, of means for causing an angular displacement of the magnetic field produced by said winding while the armature is being shifted to its central position.
8. In a starting mechanism, the combination with a'dynamo-electric machine having a longitudinally shiftable armature and a distributed field-magnet winding, of means for producing an angular displacement of the respective magnetic fields produced by the armature winding and the field-magnet winding of said dynamo-electric machine while the armature is being shifted to its central position.
9. In a starting mechanism, the combination with a dynamo-electric machine having a field-magnetwinding and a longitudinally shiftable armature, of means for causing an angular displacement of the magnetic field produced by saidwinding while the armature is being shifted to its central position.
In testimony whereof, I have hereunto subscribed my name this 23rd day. of March, 1915.
CHARLES E. WILSON.
US1802415A 1915-03-30 1915-03-30 Starting mechanism for automobiles. Expired - Lifetime US1246691A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4350236A (en) * 1980-12-08 1982-09-21 Ford Aerospace & Communications Corp. Electromagnetic clutch assembly

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4350236A (en) * 1980-12-08 1982-09-21 Ford Aerospace & Communications Corp. Electromagnetic clutch assembly

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