US1289315A - Interlock for automobile-starters. - Google Patents
Interlock for automobile-starters. Download PDFInfo
- Publication number
- US1289315A US1289315A US75142713A US1913751427A US1289315A US 1289315 A US1289315 A US 1289315A US 75142713 A US75142713 A US 75142713A US 1913751427 A US1913751427 A US 1913751427A US 1289315 A US1289315 A US 1289315A
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- US
- United States
- Prior art keywords
- motor
- engine
- starting
- shaft
- speed
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- 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
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Classifications
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F02—COMBUSTION ENGINES; HOT-GAS OR COMBUSTION-PRODUCT ENGINE PLANTS
- F02N—STARTING OF COMBUSTION ENGINES; STARTING AIDS FOR SUCH ENGINES, NOT OTHERWISE PROVIDED FOR
- F02N11/00—Starting of engines by means of electric motors
- F02N11/08—Circuits or control means specially adapted for starting of engines
-
- Y—GENERAL 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
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T74/00—Machine element or mechanism
- Y10T74/13—Machine starters
Definitions
- My invention relates tointerlocks for an tomobile starters and has for one of its objects to provide a safety device for protecting the gear mechanism of a starting motor.
- a further object of my invention is to a structure which automatically disconnects the starting motor fromthe' engine shaft of an automobile or motor vehicle when a predetermined speed is reached.
- the usual method of connecting a starting motor to an engine shaft is to provide the flywheel with agear which meshes with a pinion connected to the starting motor.
- the flywheel rotates with a high peripheral speed and, if the operator, by accidentor mistake,- attempts to mesh the pinion with the flywheel gear while the engine is operating under its own power, it is practically certain that the gears will be damaged.
- a relatively high-speed ratio is customarily employed between the motor and the engine shaft, it is advisable to disconnect the gears before the'engine attains full speed in order 'to avoid an excessive motor speed.
- FIG. 1 is a diagrammatic ⁇ view of "apparatus embodying my invention
- Fig. 2 is an enlarged sectional view of a centrifugal switch.
- the flywheel l of a gas engine (not shown) is provided with gear teeth 2 to be engaged by a pinion 3 that is slida'bly keyed on the shaft 4 of a starting motor 5 of any desired character, but here shownas a dyis rotated at PABK, PENNSYLVANIA, ASSIGNOR 'IO WESTINGHOUSE A CORPORATION OF PENNSYLVANIA.
- Theip'in ion 3 has provided The i the spring 12, by means of a pedal'14 that is pivotally mounted upon a lug 15 projecting from any suitable stationary part of the vehicle (not shown).
- a link 16 connects the pedal 14 to.
- a rod 17 which is held upward against two retaining members 18 by a spring 19-and is adapted to engage an arm 20'having a pivotal support at 21 upon a bar 22 that is fixed to the rod 9.
- the arm 20 is held against a stop 23 by a spring 24.
- a locking device 25 is mounted adjacent to the rod 9 and comprises a casing 26, an
- electro magnet winding 28 a core 29, an armature 30 having a pivotal support at 31, arm 33 having a pivotal support at 34, and
- Two bars 35 and 36 are pivotally supported in the casing 26 with their upper ends 111 thepath of movement of the arm 13 and their lower ends in position to be engaged by the respective shoulders 37 and 38 of the arm 33, according to the position of'the latter.
- An adjustable stop 39 is attached to the casing 26 to be engaged by the upper end of the. arm 20, as hereinafter described.
- a centrifugalswitch 40 shown in detail in Fig. 2, is mounted on the engine shaft 41, or some other rotating part ofthe engine, and comprises two cup shaped members 42 and 43. fastened together, as. by screw threads, at 44 and inclosing a'body of mercury indicatedat 45.
- a contact member 46 is attached to and insulated from the casing andhasan'annular surface 47 which dips into the mercury when the switch is stationy, when the switch rotates at a speed sufficiently high to cause the gas engine is higher than the speed used in starting, and the switch is adjusted to.
- the minimum speed of The contact member 46 is con- I the circuit of the magnetwinding 28.
- the centrifugal switch 40 When the engine starts under its own power and attains a predetermined speed, the centrifugal switch 40 operates to break armature 30, 'being released by the magnet, drops.'-by its own weight androcks the arm 33 into the position shown, thereby releasing the bar 35 from the shoulder 37 to allow the arm 13 to move back to its right hand position. Movement of the rod 9, as just indicated, disengages the pinion 3 from the flywheel gear teeth and operates the switch member 53 to break the circuit of the motor. This action takes place regardless of the release of the pedal by the operator becausethe rod 17, in the dotted line position, cannot obstruct movement of the bar 22.
- a starting mechanism the combination with an engine shaft and a starting motor, of a shiftable pinion adapted to operatively connect said motor to said engine shaft, and electrically controlled means for locking said pinion in both operative and inoperative positions.-. v r
- a starting mechanism In a starting mechanism, the combination with an engine shaft, a starting motor, and .gear mechanism for operatively connecting said motor to said shaft, of means for efiecting the operative connection of said gear mechanism, latching means for locking said gear mechanism in operative position, and automatic means for disconnecting said mechanism at a predetermined speed.
- a starting mechanism the combination with an engine shaft. a starting motor, and gear mechanism for operatively connecting said motor to said shaft, of means i for effecting the operative connection of said gear mechanism, latching means for locking said gear mechanism in operative position, and speed-controlled means fordisconnecting said mechanism.
- a starting mechanism the combina tion' with an engine shaft, a starting motor and means for operatively connecting said motor to said engine shaft, of an electric circuit for controlling said means, and means for locking said connecting means in an inoperative'position whereby electric current must flow in said circuit before said motor 7 can be operatively connected to said engine shaft.
- a shiftable member for operatively connecting' and disconnecting said motor and 7 said. shaft, of an electric circuit for controlling said shiftable member, and means for locking said shiftable member in operative position whereby said cii cuit inilst be broken before said member can be shifted to disconnect said motor from said engine shaft.
- stationary stop member adapted to be engaged by saidcoacting means after a predetermined movement' 'of said shiftable memher to disconnect said shiftable member from said coacting means.
Description
s. TROODL INTE'RLOCK FOR AUTOMOBILE STARTERS. APPLICATION FILED MAR. 191's.
1,289,315. Patented Dec. 31; 1918-.
- INVENTOR ATTORNEY To all whom it may concern:
.provide UNITED STATS ATENT orr o.
. SAMUEL 'rzeoon, or nnenwoon ELECTRIC AND MANUFACTURING COMPANY,
INTERLOCK FOR AUTOMOBILE-STARTERS.
Be it known that I, SAMUEL TROOD, a ciflizen of the United States, and a resident of Edgewood Park, in the county of Allegheny and State of Pennsylvania, have invented a new and useful Improvement inlnterlocks for Automobile-Starters, of-which the following is a specification.
My invention relates tointerlocks for an tomobile starters and has for one of its objects to provide a safety device for protecting the gear mechanism of a starting motor.
A further object of my invention is to a structure which automatically disconnects the starting motor fromthe' engine shaft of an automobile or motor vehicle when a predetermined speed is reached.
The usual method of connecting a starting motor to an engine shaft is to provide the flywheel with agear which meshes with a pinion connected to the starting motor. Inthe normal operation of the engine, the flywheel rotates with a high peripheral speed and, if the operator, by accidentor mistake,- attempts to mesh the pinion with the flywheel gear while the engine is operating under its own power, it is practically certain that the gears will be damaged. As a relatively high-speed ratio is customarily employed between the motor and the engine shaft, it is advisable to disconnect the gears before the'engine attains full speed in order 'to avoid an excessive motor speed.
' In my invention, I propose to employ a magnetically operated interlock to be controlled by a centrifugal switch that is adapted to break an electric circuit at a predeterminedspeed. The interlockprevents .the
engagement of the flywheel gearby the motor pinion when the flywheel more than a predetermined speed, and also operates to release the pinion from engagement with the flywheel when the predetermined speed is reached.
The details of my improved construction will be understood in connection with the accompanying drawings in-which Figure 1 is a diagrammatic} view of "apparatus embodying my invention, and Fig. 2 is an enlarged sectional view of a centrifugal switch.
The flywheel l of a gas engine (not shown) is provided with gear teeth 2 to be engaged by a pinion 3 that is slida'bly keyed on the shaft 4 of a starting motor 5 of any desired character, but here shownas a dyis rotated at PABK, PENNSYLVANIA, ASSIGNOR 'IO WESTINGHOUSE A CORPORATION OF PENNSYLVANIA.
Specification of Letters Patent. Patented Dec. 31, 1918. Application filed March}, 1913. Serial No. 751,427. I I I namo electric machine: Theip'in ion 3 has provided The i the spring 12, by means of a pedal'14 that is pivotally mounted upon a lug 15 projecting from any suitable stationary part of the vehicle (not shown). A link 16 connects the pedal 14 to. a rod 17 which is held upward against two retaining members 18 by a spring 19-and is adapted to engage an arm 20'having a pivotal support at 21 upon a bar 22 that is fixed to the rod 9. The arm 20 is held against a stop 23 by a spring 24.
A locking device 25 is mounted adjacent to the rod 9 and comprises a casing 26, an
electro magnet winding 28, a core 29, an armature 30 having a pivotal support at 31, arm 33 having a pivotal support at 34, and
-a link 32 connecting the members 30 ,and 33.
Two bars 35 and 36 are pivotally supported in the casing 26 with their upper ends 111 thepath of movement of the arm 13 and their lower ends in position to be engaged by the respective shoulders 37 and 38 of the arm 33, according to the position of'the latter.' An adjustable stop 39 is attached to the casing 26 to be engaged by the upper end of the. arm 20, as hereinafter described.
A centrifugalswitch 40, shown in detail in Fig. 2, is mounted on the engine shaft 41, or some other rotating part ofthe engine, and comprises two cup shaped members 42 and 43. fastened together, as. by screw threads, at 44 and inclosing a'body of mercury indicatedat 45. A contact member 46 is attached to and insulated from the casing andhasan'annular surface 47 which dips into the mercury when the switch is stationy, when the switch rotates at a speed sufficiently high to cause the gas engine is higher than the speed used in starting, and the switch is adjusted to. break its contact at a speed above its starting speed but below the running speed of .the engine; nected to a slip ring 48 upon which bears as shown, but is disconnected therefrom the mercury to extend 4 around the casing. The minimum speed of The contact member 46 is con- I the circuit of the magnetwinding 28. The
wheel 1. A small movement ofthe rod 17 is suflicient to effect engagement between a grounded contact member 50 and a spring supported contact member 51 and thus close. an electric circuit through a battery 52, the magnet winding 28 and the centrifugal switch 40 to ground. The magnet winding '28 being thus energized, the armature 30 is lifted, and, consequently the arm 33 is .tilted to release the bar 36 from the shoulder 38 and effect engagement between the shoulder 37 and the bar 35. Each of the bars 35 and 36 is thus free to turn upon its pivot as its upper endis engaged by the arm 13 in mov-v ing toward the bracket 11. The bars will be. returned to their normal positions by gravity and the bar 35 will act as a latch to prevent movement of the arm 13 toward the flywheel. When the pinion 3 is in mesh with the teeth 2 a switch member 53 on the bar 22 bridges contact members 54c and 55 to close the battery circuit through the motor 5.
. Just before the bar 22 reaches the limit of its movement, the upper end of the bar 20 is engaged by the stop 39 and rocked on its pivot to permit the end of the rod 17 to slip downwardly and longitudinally into the dotted line position shown. The bar 22 and its connected mechanism, being thus released, are free to be returned by the spring 12 to the positions shown, as soon as the arm 13 is released by the bar 35.
When the engine starts under its own power and attains a predetermined speed, the centrifugal switch 40 operates to break armature 30, 'being released by the magnet, drops.'-by its own weight androcks the arm 33 into the position shown, thereby releasing the bar 35 from the shoulder 37 to allow the arm 13 to move back to its right hand position. Movement of the rod 9, as just indicated, disengages the pinion 3 from the flywheel gear teeth and operates the switch member 53 to break the circuit of the motor. This action takes place regardless of the release of the pedal by the operator becausethe rod 17, in the dotted line position, cannot obstruct movement of the bar 22. Upon the release of the pedal, it is retracted by a spring 56, attached to any suita ble stationary part, not shown, into its normal position, and the rod 17 is drawn upward by the spring 19 into the position shown. Anyattempt by the operator to connect the pinion 3 to the gear teeth 2 while the engine is running will be prevented by the bar 36, thelower end of which is locked by the shoulder operator to.allo.w the motor to be driven at power. It is necessary for current to fiow in Laseew' 38. The magnet winding cannot be energized because the centrifugal Switch in series with it has broken the circuit and will not close until the engine speed is decreased to the predetermined amount or until the engine has stopped.
It may readily be understood from the above described construction and operation of the arts that, when the starting motor is operatively connected to the engine shaft, this connection is automatically broken as soon as the engine starts to operate under its own power, and it is impossible for the high speed by the engine by maintaining pressure 'on the starting pedal. The operatormay disengage the pinion at any time desiredv by allowing the pedal to be retracted to separate the contact terminals 50 and .51 and thus break the circuitof the magnet. It will also be-clear that I have provided a positive means for preventing engagement of the pinion and the flywheel gear teeth when the engine is operating under its own the control circuit beforethe motor can be operated, and this circuit must be both broken and closed before the inotor can again be placed in the operative connection with the engine.
It is understood that such changes and modifications may be made in the structural details 'of my invention as will fall within the scope of the appended claims.
I claim as my invention: 1. In a starting mechanism, the combination with an engine shaft and a starting motor, of a shiftable pinion adapted to operatively connect saidmotor to said engine shaft, and automatic electrically controlled means for locking said pinion in both operative and inoperative positions.
. 2. In a starting mechanism, the combination with an engine shaft and a starting motor, of a shiftable pinion adapted to operatively connect said motor to said engine shaft, and electrically controlled means for locking said pinion in both operative and inoperative positions.-. v r
3. In a starting mechanism, the combination with an engine shaft ar d a starting motor, of a shiftable pinion adapted to op,
eratively connect said motor to said engine shaft, and speed-controlled means for look ing said pinion in both operative andinoperative positions.
4:. In a starting mechanism, the combination with an engine shaft, a starting motor, and .gear mechanism for operatively connecting said motor to said shaft, of means for efiecting the operative connection of said gear mechanism, latching means for locking said gear mechanism in operative position, and automatic means for disconnecting said mechanism at a predetermined speed.
5. In a starting mechanism, the combination with an engine shaft. a starting motor, and gear mechanism for operatively connecting said motor to said shaft, of means i for effecting the operative connection of said gear mechanism, latching means for locking said gear mechanism in operative position, and speed-controlled means fordisconnecting said mechanism.
6. In a starting mechanism, the combina tion' with an engine shaft, a starting motor and means for operatively connecting said motor to said engine shaft, of an electric circuit for controlling said means, and means for locking said connecting means in an inoperative'position whereby electric current must flow in said circuit before said motor 7 can be operatively connected to said engine shaft. r .i 7 In a startingmechanism, the combination with an engine shaft, a starting motor,
'and a shiftable member for operatively connecting' and disconnecting said motor and 7 said. shaft, of an electric circuit for controlling said shiftable member, and means for locking said shiftable member in operative position whereby said cii cuit inilst be broken before said member can be shifted to disconnect said motor from said engine shaft.
8. The combinationwith an engine shaft, a starting motor, and ashiftable member for operatively connecting and] disconnecting said motor and said engine shaft, of an electric circuit, and means for lockin said shiftable member in a, plurality of positions whereby an electric current must flow in said circuit before said member can be" shiftedto'connect said motor to said shaft;-
and whereby said circuit must bebroken before said motor can be disconnected from said shaft.
9. In a starting mechanism, the combination with an engine shaft, :1 startingrmotor,
- trolled means and gear mechanism for operatively connecting said motor to said shaft, of means prising a "shiftable member, and speed-confor locking said member in a plurality of positions. I
10. In a starting mechanism, the combina-- meeting said lnotor to said shaft, of a 1ocking device aglapted to prevent the connection and the disconnection of said motor and said shaft under predetermined speed conditions.
12. In a starting mechanism,the combination with an engine shaft, a starting motor,
'andnmeans for operatively connecting the said motor to said shaft, of an electrically operated locking device for controlling said means, and a centrifugal switch for control ling said locking device.
'13. In a starting mechanism, the combination' with a shiftable member, of a unitary locking device having a plurality of operat- 4 ing conditions, adapted, when one condition obtains, to allow said member to be shifted in one direction only. and, when a second condition obtains, to allow'movenient of said member in the opposite direction only.
14. The combination with an engine shaft, a starting-motor, and means for operatively connecting said motor to said shaft, of means for eifedting said operative connection, comprising a longitudinally shiftable member and means coac'tingtherewith, a
stationary stop member adapted to be engaged by saidcoacting means after a predetermined movement' 'of said shiftable memher to disconnect said shiftable member from said coacting means.
In testimony whereof, I have hereunto subscribed my name this 20th day of February 1913. u SAMUEL TROOD.
Witnesses:
B. B'. Hmns, W
L. E. CUNNIN HAM.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US75142713A US1289315A (en) | 1913-03-01 | 1913-03-01 | Interlock for automobile-starters. |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US75142713A US1289315A (en) | 1913-03-01 | 1913-03-01 | Interlock for automobile-starters. |
Publications (1)
Publication Number | Publication Date |
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US1289315A true US1289315A (en) | 1918-12-31 |
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ID=3356880
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US75142713A Expired - Lifetime US1289315A (en) | 1913-03-01 | 1913-03-01 | Interlock for automobile-starters. |
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US (1) | US1289315A (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2455328A (en) * | 1947-09-02 | 1948-11-30 | Bendix Aviat Corp | Engine starter gearing and control |
US3304927A (en) * | 1964-09-30 | 1967-02-21 | Gorski Michael | Engine |
-
1913
- 1913-03-01 US US75142713A patent/US1289315A/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2455328A (en) * | 1947-09-02 | 1948-11-30 | Bendix Aviat Corp | Engine starter gearing and control |
US3304927A (en) * | 1964-09-30 | 1967-02-21 | Gorski Michael | Engine |
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