US2923162A - Motor vehicle starter holding means - Google Patents

Motor vehicle starter holding means Download PDF

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Publication number
US2923162A
US2923162A US572327A US57232756A US2923162A US 2923162 A US2923162 A US 2923162A US 572327 A US572327 A US 572327A US 57232756 A US57232756 A US 57232756A US 2923162 A US2923162 A US 2923162A
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Prior art keywords
pinion gear
motor
engine
pinion
armature shaft
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US572327A
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Challenor W Rainey
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Ford Motor Co
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Ford Motor Co
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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
    • F02N1/00Starting apparatus having hand cranks
    • F02N1/005Safety means
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F16ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
    • F16DCOUPLINGS FOR TRANSMITTING ROTATION; CLUTCHES; BRAKES
    • F16D41/00Freewheels or freewheel clutches
    • 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
    • Y10T74/13Machine starters
    • Y10T74/131Automatic

Definitions

  • This invention is used in conjunction with conventional starting means to prevent starter motor disengage- I ment from a motor vehicle engine turning means during false starts or spasmodic engine firing before the engine has started to fire regularly.
  • This invention is used in conjunction with a Bendix drive wherein the pinion 'of said drive is driven by the starter motor and is engageable with the flywheel-of the'motor vehicle. After engagement with the flywheel the pinion drives the flywheel until the flywheel suddenly accelerates which may be caused by the firing of only one or two cylinders thereby disengaging the pinion from the fly wheel after which the engine may die.
  • the starting motor pinion is so disengaged it must be re-engaged with the motor .vehicle flywheel before the engine can be successfully started which is not only inconvenient because of the turn.
  • This invention provides means to keep the starter pinion engaged with the flywheel gear until a positive engine start has been obtained.
  • This invention provides a low cost item capable of mass production which involves no additional mechanical linkage or latching mechanism or other means requiring precise or delicately balanced parts which are not only expensive to manufacture but difiicult to maintain in operating condition.
  • Figure 1 represents an elevational view partially cutaway of a starter motor and Bendix drive unit incorporating an embodiment of this invention.
  • Bendix gear 10 having spring 11 with lead screw 13 which is fixed to armature shaft 18. Internally threaded member 12 mates with the threads of screw 13 and is axially movable in relation thereto. Member 12 is indicated in two positions, one being dashed, to indicate this axial travel. Pinion gear 15 is fixed to member 12 and plunger 16 is an extension of and integral with pinion 15. The lower portion of flywheel 17 is shown engaged with pinion 15 as it would be when the starting motor is in a driving or starting condition before the engine has started.
  • Starting motor 25 has armature 19, commutator seg ments 20 and brush assembly 21. Thrust bearing 22 is engaged between armature shaft 18 and the end of hell 23 of motor 25.
  • Solenoid coil 26 which comprises 306 turns of number 16 wire and draws approximately seven amperes at five volts is wound in an annular ring about armature shaft 18 in end assembly 27.
  • Assembly 27 is made of a ferrous material such as steel or cast iron and when solenoid 26 is energized creates a strong magnetic field between annular gap 28 between end plate 29 and plunger -16, and annular gap 30 between plunger parting a rotary motion to armature shaft 18.
  • Gap 28 is preferably between .015 and .100 inch while gap 30 is .005 inch but these dimensions are not limiting of this invention.
  • Figure 2 is shown a schematic representation of the connection of the solenoid coil in relation to the field windings 34 of series motor 25.
  • switch 35 When switch 35 is closed, current from battery 36 flows through field windings 34 and motor 25 to ground 37 in one branch of the parallel circuit and also through solenoid 26 to ground 38 in the other branch. In this manner full battery potential is across coil 26 and creates a strong toroidal field in gaps 28 and 30.
  • Thrust bearing 22 allows shaft 18 to turn freely under the force exerted by solenoid26. In this manner it will take more than a false start or spasmodic firing in the engine cylinders to disengage pinion 15 by turning member 12 at a higher rate than lead screw 13 thereby giving its linear motion to the right.
  • plunger 16 When the engine is self-sustaining plunger 16 will be held in engagement turning member 12 and screw 13 at a rate faster than armature shaft 18 and this ls permitted by ratchet gear 33 which permits relative rotation between screw 13 and shaft 18 in one direction but not the other.
  • By varying gaps 28, 30 or solenoid 26 plunger 16 may be disengaged shortly after positive engine starting thereby keeping ratcheting of gear 33 to a minimum.
  • the solenoid is deenergized thereby completely disengaging pinion 15 as flywheel 17 will cause pinion 15 to turn faster than screw 13 imparting rightward motion to pinion 15.
  • a starting motor assembly for an internal combustion engine, a motor frame, an armature shaft rotatably mounted in said frame, an armature mounted on said shaft, a pinion gear mounted on said armature shaft, mechanical means engaging said pinion gear for moving said pinion into engagement with an engine turning means when said armature is energized, a solenold positioned in the motor frame in spaced coaxial relation to said armature shaft and at the end of the frame adjacent said pinion gear, an end plate having an opened central portion affixed to said frame, said pinion gear having an extension adapted to slide on said armature shaft into said opened central portion of the end plate when said pinion gear moves into engagement with said engine turning means, said solenoid creating a magnetic field when energized to hold the extension of the pinion gear in the opened central portion of the end plate and the pinion gear in engagement withsaid engine turning means during starter motor operation.
  • a motor frame In a starting motor assembly for an internal comi atented Feb. 2, 1960 bustion engine, a motor frame, an armature shaft rotatahly mounted in said frame, an armature mounted on said shaft, a pinion gear slidably mounted on said armature shaft, a threaded member mounted on saidarmature shaft, an internally threaded member having a large rotational inertia fixed to said pinion gear and mounted on said threaded member for moving said pinion gear into engagement .with an engine turning means when said armature is energized and.
  • said armature shaft rotated, a solenoid positioned in the motor frame in spaced coaxial relation to said armature shaft and at the end of the frame adjacent said pinion gear, an end plate having an opened central portion afiixed to said frame, said pinion gear having an extension adapted to move axially with said pinion gear into said opened central portion of the end plate when said pinion moves into engagement with said engine turning, said solenoid creating a magnetic field when energized to hold the extension of the pinion gear in the opened central portion of the end plate and the pinion gear in engagement with said engine turning means during starter motor operation.
  • a starting motor assembly for an internal combustion engine comprising, a motor frame, motor'windings, an armature shaft rotatably mounted in said frame, an armature including a commutator fixed to said armature shaft, said motor frame including a first end plate having a bell for receiving the end of said armature shaft and a second end plate having an opened outset central portion through which said armature shaft passes, a pinion gear slidably mounted on the armature shaft, an inertia member fixed to said pinion gear mounted on said shaft for rotational and axial movement with respect thereto for moving said pinion gear into engagement with an engine turning means when said armature is energized and said armature shaft rotated, a solenoid connected across the motor windings mounted in said frame against said second end plate and in spaced coaxial relation with respect to said armature shaft for creating a magnetic field about the opened outset portion of the second end plate, said pinion gear having an extension which moves into said magnetic field when said pinion gear moves into engagement with the
  • a starter motor assembly for an internal combustion engine, a starter motor frame, an armature shaft rotatably mounted in said frame, an armature mounted said engine turning means during starter motor operation.
  • a starter motor assembly for an internal combustion engine, a starter motor frame, an armature shaft rotatably mounted in said frame, an armature mounted on said shaft, a pinion gear slidably mounted on said armature shaft, a threaded member mounted on said armature shaft, an internally threaded member having large rotational inertia aflixed to said pinion gear and mounted on said threaded member for moving said pinion gear into engagement with an engine turning means when said armature is energized and said armature shaft isrotated, a solenoid positioned around said armature shaft and at the end of the frame adjacent said pinion gear, said solenoid when energized creating a magnetic field acting on said pinion gear to hold said pinion gear in engagement with said engine turning means during starter motor operation.
  • a starter motor assembly a starter motor frame, a power shaft mounted in said frame, a pinion gear mounted on said power shaft, mechanical means actuated by said power shaft and engaging said pinion gear for moving said pinion gear into engagement with an engine turning means when said power shaft is rotated, electromagnetic means positioned at the end of saidstarting motor frame adjacent said pinion gear and creating a magnetic field when energized, said pinoin gear moving into said magnetic field as it moves into engagement with said engine turning means, said magnetic field holding said pinion gear in engagement with said engine turning means during starter motor operation.

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

Description

Mus-up Feb. 2, 1960 c. w. RAINEY 2,923,152
MOTOR VEHICLE STARTER HOLDING MEANS Filed March 19, 1956 c.w. RAINEY INVENTOR.
ATTORNEYS United. States Patent MOTOR VEHICLE STARTER HOLDING MEANS Challenor W. Rainey, Dearborn, Mich., assignor to Ford Motor Company, Dearborn, Mich., a corporation of Delaware i Application March 19, 1956, Serial No. 572,327
6 Claims. (Cl. 74-7) This invention is used in conjunction with conventional starting means to prevent starter motor disengage- I ment from a motor vehicle engine turning means during false starts or spasmodic engine firing before the engine has started to fire regularly. This invention is used in conjunction with a Bendix drive wherein the pinion 'of said drive is driven by the starter motor and is engageable with the flywheel-of the'motor vehicle. After engagement with the flywheel the pinion drives the flywheel until the flywheel suddenly accelerates which may be caused by the firing of only one or two cylinders thereby disengaging the pinion from the fly wheel after which the engine may die. When the starting motor pinion is so disengaged it must be re-engaged with the motor .vehicle flywheel before the engine can be successfully started which is not only inconvenient because of the turn.
additional time taken but constitutes a serious battery drain, especially in cold weather when such false starts are more common and said battery is under its most severe test due to the coldness and stiffness of the engine. This invention provides means to keep the starter pinion engaged with the flywheel gear until a positive engine start has been obtained. This invention provides a low cost item capable of mass production which involves no additional mechanical linkage or latching mechanism or other means requiring precise or delicately balanced parts which are not only expensive to manufacture but difiicult to maintain in operating condition.
An embodiment of this invention will now be more fully and completely described wherein reference will be made to drawings in which:
Figure 1 represents an elevational view partially cutaway of a starter motor and Bendix drive unit incorporating an embodiment of this invention; and
'Figure 2 shows a schematice representation of the circuit of this embodiment.
Looking at Figure 1 as seen Bendix gear 10 having spring 11 with lead screw 13 which is fixed to armature shaft 18. Internally threaded member 12 mates with the threads of screw 13 and is axially movable in relation thereto. Member 12 is indicated in two positions, one being dashed, to indicate this axial travel. Pinion gear 15 is fixed to member 12 and plunger 16 is an extension of and integral with pinion 15. The lower portion of flywheel 17 is shown engaged with pinion 15 as it would be when the starting motor is in a driving or starting condition before the engine has started.
Starting motor 25 has armature 19, commutator seg ments 20 and brush assembly 21. Thrust bearing 22 is engaged between armature shaft 18 and the end of hell 23 of motor 25. Solenoid coil 26 which comprises 306 turns of number 16 wire and draws approximately seven amperes at five volts is wound in an annular ring about armature shaft 18 in end assembly 27. Assembly 27 is made of a ferrous material such as steel or cast iron and when solenoid 26 is energized creates a strong magnetic field between annular gap 28 between end plate 29 and plunger -16, and annular gap 30 between plunger parting a rotary motion to armature shaft 18.
2 16 and end assembly 27. Gap 28 is preferably between .015 and .100 inch while gap 30 is .005 inch but these dimensions are not limiting of this invention.
In Figure 2 is shown a schematic representation of the connection of the solenoid coil in relation to the field windings 34 of series motor 25. When switch 35 is closed, current from battery 36 flows through field windings 34 and motor 25 to ground 37 in one branch of the parallel circuit and also through solenoid 26 to ground 38 in the other branch. In this manner full battery potential is across coil 26 and creates a strong toroidal field in gaps 28 and 30.
In operation of this embodiment of this invention, current is caused to flow through the field and armature of motor 25 by conventional starting means therefore im- Lead screw 13, since it is fixed to armature shaft 18, is rotated therewith but member 12 being of a heavy construction has a strong tendency to remain stationary thereby rotatingat a speed much less than that of screw 13. Leftwardly linear motion is imparted to member 12 due to this difference in rotative speeds and pinion 15 comes into engagement with flywheel 17 causing wheel 17 to Also plunger 16 enters end plate 29 and the magnetic circuit indicated by dashed lines 31, 32 tends to hold plunger 16 along with pinion 15 in an engaged position while current is flowing through the coil or while the starter motor is being energized. Thrust bearing 22 allows shaft 18 to turn freely under the force exerted by solenoid26. In this manner it will take more than a false start or spasmodic firing in the engine cylinders to disengage pinion 15 by turning member 12 at a higher rate than lead screw 13 thereby giving its linear motion to the right. When the engine is self-sustaining plunger 16 will be held in engagement turning member 12 and screw 13 at a rate faster than armature shaft 18 and this ls permitted by ratchet gear 33 which permits relative rotation between screw 13 and shaft 18 in one direction but not the other. By varying gaps 28, 30 or solenoid 26 plunger 16 may be disengaged shortly after positive engine starting thereby keeping ratcheting of gear 33 to a minimum. When the starter motor is de-energized the solenoid is deenergized thereby completely disengaging pinion 15 as flywheel 17 will cause pinion 15 to turn faster than screw 13 imparting rightward motion to pinion 15.
, It will be understood that the invention is not to be limited to the exact construction shown and described, but that various changes and modifications may be made without departing from the spirit and scope of the invention, as defined in the appended claims.
What is claimed is:
1. In a starting motor assembly for an internal combustion engine, a motor frame, an armature shaft rotatably mounted in said frame, an armature mounted on said shaft, a pinion gear mounted on said armature shaft, mechanical means engaging said pinion gear for moving said pinion into engagement with an engine turning means when said armature is energized, a solenold positioned in the motor frame in spaced coaxial relation to said armature shaft and at the end of the frame adjacent said pinion gear, an end plate having an opened central portion affixed to said frame, said pinion gear having an extension adapted to slide on said armature shaft into said opened central portion of the end plate when said pinion gear moves into engagement with said engine turning means, said solenoid creating a magnetic field when energized to hold the extension of the pinion gear in the opened central portion of the end plate and the pinion gear in engagement withsaid engine turning means during starter motor operation.
2. In a starting motor assembly for an internal comi atented Feb. 2, 1960 bustion engine, a motor frame, an armature shaft rotatahly mounted in said frame, an armature mounted on said shaft, a pinion gear slidably mounted on said armature shaft, a threaded member mounted on saidarmature shaft, an internally threaded member having a large rotational inertia fixed to said pinion gear and mounted on said threaded member for moving said pinion gear into engagement .with an engine turning means when said armature is energized and. said armature shaft rotated, a solenoid positioned in the motor frame in spaced coaxial relation to said armature shaft and at the end of the frame adjacent said pinion gear, an end plate having an opened central portion afiixed to said frame, said pinion gear having an extension adapted to move axially with said pinion gear into said opened central portion of the end plate when said pinion moves into engagement with said engine turning, said solenoid creating a magnetic field when energized to hold the extension of the pinion gear in the opened central portion of the end plate and the pinion gear in engagement with said engine turning means during starter motor operation.
3. A starting motor assembly for an internal combustion engine comprising, a motor frame, motor'windings, an armature shaft rotatably mounted in said frame, an armature including a commutator fixed to said armature shaft, said motor frame including a first end plate having a bell for receiving the end of said armature shaft and a second end plate having an opened outset central portion through which said armature shaft passes, a pinion gear slidably mounted on the armature shaft, an inertia member fixed to said pinion gear mounted on said shaft for rotational and axial movement with respect thereto for moving said pinion gear into engagement with an engine turning means when said armature is energized and said armature shaft rotated, a solenoid connected across the motor windings mounted in said frame against said second end plate and in spaced coaxial relation with respect to said armature shaft for creating a magnetic field about the opened outset portion of the second end plate, said pinion gear having an extension which moves into said magnetic field when said pinion gear moves into engagement with the engine turning means, said magnetic field holding the pinion gear engaged wtih the engine turning means during starting motor actuation, a thrust bearing positioned between the bell of the first end plate and the end of the armature shaft adjacent the commutator for receiving the thrust on the armature shaft generated by the force of the magnetic field acting on the pinion gear extension.
4. In a starter motor assembly for an internal combustion engine, a starter motor frame, an armature shaft rotatably mounted in said frame, an armature mounted said engine turning means during starter motor operation.
5. In a starter motor assembly for an internal combustion engine, a starter motor frame, an armature shaft rotatably mounted in said frame, an armature mounted on said shaft, a pinion gear slidably mounted on said armature shaft, a threaded member mounted on said armature shaft, an internally threaded member having large rotational inertia aflixed to said pinion gear and mounted on said threaded member for moving said pinion gear into engagement with an engine turning means when said armature is energized and said armature shaft isrotated, a solenoid positioned around said armature shaft and at the end of the frame adjacent said pinion gear, said solenoid when energized creating a magnetic field acting on said pinion gear to hold said pinion gear in engagement with said engine turning means during starter motor operation.
6. In a starter motor assembly, a starter motor frame, a power shaft mounted in said frame, a pinion gear mounted on said power shaft, mechanical means actuated by said power shaft and engaging said pinion gear for moving said pinion gear into engagement with an engine turning means when said power shaft is rotated, electromagnetic means positioned at the end of saidstarting motor frame adjacent said pinion gear and creating a magnetic field when energized, said pinoin gear moving into said magnetic field as it moves into engagement with said engine turning means, said magnetic field holding said pinion gear in engagement with said engine turning means during starter motor operation.
References Cited in the file of this patent UNITED STATES PATENTS 2,323,196 Buxton June 29, 1943 2,423,068 Hood et al. June 24, i947 2,444,109 Oliver June 29, 1948 FOREIGN PATENTS 726,049 France Feb. 23, 1932 455,005 Great Britain Oct. 12, 1936 860,749 France Oct. 7, 1940
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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3209603A (en) * 1962-01-12 1965-10-05 Espanola Magnetos S A Femsa Fa Starter motors
US4502429A (en) * 1981-10-09 1985-03-05 Hitachi, Ltd. Inertia drive type starter for internal combustion engine
EP1193393A2 (en) 2000-10-02 2002-04-03 Johnson Electric S.A. Starter motor

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR726049A (en) * 1931-11-09 1932-05-21 Ducellier Sa Des Ets Clutch and release device
GB455005A (en) * 1935-06-22 1936-10-12 Bosch Robert Improvements in or relating to electric starters for motor vehicle engines
FR860749A (en) * 1939-07-07 1941-01-22 Paris & Du Rhone Improvements to spark-ignition or similar engine starters
US2323196A (en) * 1941-07-19 1943-06-29 Bendix Aviat Corp Engine starter gearing
US2423068A (en) * 1945-08-02 1947-06-24 Bendix Aviat Corp Engine starter
US2444109A (en) * 1946-03-12 1948-06-29 Bendix Aviat Corp Engine starter gearing

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR726049A (en) * 1931-11-09 1932-05-21 Ducellier Sa Des Ets Clutch and release device
GB455005A (en) * 1935-06-22 1936-10-12 Bosch Robert Improvements in or relating to electric starters for motor vehicle engines
FR860749A (en) * 1939-07-07 1941-01-22 Paris & Du Rhone Improvements to spark-ignition or similar engine starters
US2323196A (en) * 1941-07-19 1943-06-29 Bendix Aviat Corp Engine starter gearing
US2423068A (en) * 1945-08-02 1947-06-24 Bendix Aviat Corp Engine starter
US2444109A (en) * 1946-03-12 1948-06-29 Bendix Aviat Corp Engine starter gearing

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3209603A (en) * 1962-01-12 1965-10-05 Espanola Magnetos S A Femsa Fa Starter motors
US4502429A (en) * 1981-10-09 1985-03-05 Hitachi, Ltd. Inertia drive type starter for internal combustion engine
EP1193393A2 (en) 2000-10-02 2002-04-03 Johnson Electric S.A. Starter motor
US6466116B1 (en) 2000-10-02 2002-10-15 Johnson Electric S.A. Starter motor
US20020149457A1 (en) * 2000-10-02 2002-10-17 Johnson Electric S.A. Startor motor
EP1193393A3 (en) * 2000-10-02 2003-11-26 Johnson Electric S.A. Starter motor
US6937122B2 (en) 2000-10-02 2005-08-30 Johnson Electric S.A. Starter motor

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