US2233595A

US2233595A - Two-stage starter control

Info

Publication number: US2233595A
Application number: US293999A
Authority: US
Inventors: Manuel H Elkin
Original assignee: Bendix Aviation Corp
Current assignee: Bendix Aviation Corp
Priority date: 1939-09-08
Filing date: 1939-09-08
Publication date: 1941-03-04
Anticipated expiration: 1958-03-04

Description

March 4, 1941. 'M. H. ELKIN 2,233,595

TWO-STAGE STARTER CONTROL Filed Sept. 8, 19:59 2 Sheets-Sheet 1 3 -25 a g? i7. 1

J WHW I IN I QIIIIIIIIIIIEM IIlll ATTORNEY.

March 4, 1941. M KI 2,233,595

TWO-STAGE STARTER CONTROL Filed Sept. 8, 1939 2 Sheets-Sheet 2 a x i r 5 2; 44 6% E a 4g j ii 1 INVENTOR. filazuwl-b. Ucirv ATTORNEY.

Patented Mar. 4, 1941 PATENT OFFICE TWO-STAGE sTAn'rEn CONTROL Manuel H. Elkin, Elmira Heights, N. Y., assignor to Bendix Aviation Corporation, South Bend, Ind., a corporation of Delaware Application September 8, 1939, Serial No. 293,999

7 Claims.

The present invention relates to a two-stage starter control for internal combustion engines and more particularly to a starting system in which engagement of the starting gearing is brought about by the partial energization of the starting motor at a low voltage, after which the starting motor is energized by the full battery voltage to crank the engine.

In installations of this character it has been proposed to use some form of detent to oppose rotation of the starting pinion during its engaging movement, in order to insure the desired longitudinal movement thereof under all operating conditions. Such detents as heretofore employed have generally been subject to rapid wear due to engagement with the pinion during the cranking operation, and/or have tended to cause the pinion to re-engage the engine gear immediately after being'demeshed therefrom when 0 the engine starts.

It is an object of the present invention to provide a novel two-stage eng ne starter control which is efficient and reliable in operation while being simple and economical in construction.

It is another object to provide such a device which incorporates automatically engaging gearving, and a detent for insuring proper engagement thereof during the first stage of operation of the device.

It is another object to provide such a device in which the detent is rendered operative only during the first stage of operation of the device, at all other times being inoperative and not subject 35 to wear.

It is a furtherobject to provide such a device in which means are provided for preventing the full energization of the'starting motor until after the pinion has had time to mesh fully with the 40 engine gear.

It is another object to provide such a device in which the fullenergization-of the starting motor is controlled by the detent so as toprevent such full energization until after the pinion 45 is fully meshed.-

It is another object to provide such a device in which the detent is arranged to position the pinion rotarily so as to facilitate its entry into mesh with the engine gear.

50 Furtherobjeots and advantages will be apparent from the following description taken in connection with the accompanying drawings in which:

Fig. 1 is a semi-diagrammatic representation 55 of a starting system involving a preferred embodiment of the present invention, the parts being shown in idle or inoperative position;

Fig. 2 is a similar view of a second embodiment of the invention, the partsbeing shown in the positions assumed during the first stage of oper- 5 ation of the device;

Fig. 3 is a similar view of the embodiment of the invention illustrated in Fig. 2, showing the parts in the positions assumed during the cranking operation; and

Fig. 4 is a fragmentary detail showing the relationship of the pinion, the teeth of the fly-- wheel gear and the positioning detent.

In Fig. 1 of the drawings there is illustrated a starting system comprising a battery I 15 grounded at 2 and connected by a lead 3 to a starting switch 4. Switch 4 is connected by a lead 5 to a resistor 6 having a value sufficient to reduce the effective voltage of the. battery I to a value suitable for meshing purposes. Resistor 6 is connected by a lead I to a starting motor indicated generally by numeral 8 which is grounded at In.

Starting motor 8 is provided with an extended armature shaft 9 on which is mounted a screw shaft H carrying a pinion l2 threaded thereon for movement into and out of engagement with a member such as a flywheel gear 13 of an engine to be started. The operative position of the pinion l2 on the screw shaft H is defined by an abutment member l4 fixed to the screw shaft in any suitable manner as by means of a threaded connection locked by a pin l5. Preferably, a cushioning element such as .a rubber block itwith a metal face I! is mounted on the screw shaft adjacent the abutment member M in order to cushion the engagement of the pinion.

Means for insuring the traversal of the pinion l2 into mesh with the flywheel gear I3 upon initial rotation of the starting motor is provided in the form of a detent l8 slidabiy mounted in the motor housing 19 in position to engage the teeth of the pinion H, but normally held out of engagement therewith by means of a spring 2 l An electromagnet 22 is provided for actuating the detent into operative position, which electromagnet is connected by a lead 23 to the starting circuit lead 5, and by the lead 24 with the starting circuit lead I so that the eleotromagnet is in effect bridged across the resistor 6. v

Means for shunting out the resistor i in order to apply full battery voltage to the starting motor 8 is provided in the form of a bridging switch 25 which is shunted across the resistor 6 and is arranged to be actuated by an electromagnet 26. Electromagnet 25 is connected at one end by a lead 21 to the starting circuit lead 5, and its other end is grounded as indicated at 28 through a resistor 29 having a value suillcient to prevent closure of the bridging switch 25 when the starting switch 4 is originally closed, but permitting suflicient current to pass to hold the bridging switch 25 closed after it has been initially closed.

Means for short-circuiting the resistor 29 in order to secure initial closure of the bridging switch 25 is provided in the form of switch means 3| mounted on the detent l5 so as to be closed when said detent is fully depressed by the electromagnet 22. Detent I8 is so positioned in the motor housing l9 that when the pinion is in idle position, the detent engages between the teeth of the pinion to resist rotation of the pinion, and this engagement of the detent with the pinion prevents the detent from being fully depressed. When the pinion is traversed into engagement with the flywheel gear, however, it moves out from under the detent and permits it to be fully depressed by the electromagnet 22, thus causing closure of switch 3|.

In the operation of this embodiment of the invention, starting with the parts in idle position as illustrated, closure of starting switch 4 causes current to flow through the resistor 5 to the starting motor, thus putting it into rotation at low speed. At the same time, current flows through lead 23 to electromagnet 22 and from thence through lead 24 to the starting motor lead 1, causing detent l8 to be pressed into engagement with the pinion l2, thus preventing rotation of the pinion and causing it to traverse into mesh with the flywheel gear l3. At this time current also flows through the lead 21 to electromagnet 25 and through the resistor 29 to the ground, but this current is so restricted by the resistor 29 as to prevent sufllcient energization of the electromagnet 25 to effect closure of the bridging switch 25.

When the pinion 2 is fully meshed with the flywheel gear, it moves out from under the detent I 5, thus permitting electromagnet 22 to close the switch 2|. Electromagnet 25 is thereby fully energized, causing closure 01' the bridging switch 25 whereby iull battery voltage is applied to the starting motor 8 to crank the engine. Closure of bridging switch 25 short-circuits the electromagnet 22 whereby the detent I5 is returned by the spring 2| to its normal position,

thus opening the switch 5|. Bridging switch 25 is maintained closed, however, by the current traversing the resistor 29 as long as the starting switch 4 is held closed.

When the engine starts, the pinion I2 is traversed back to its normal position by the overrunning action of the engine gear, and upon opening of the starting switch 4, the starting motor is deenergized and the bridging switch 25 opens.

In the embodiment of the invention illustrated in Figs. 2 and 3, the full energization of the starting circuit is controlled by a time delay mechanism independently of the pinion detent.

Referring to Fig. 2, battery 4| grounded at 42 is connected by a lead 42 to a starting switch 44 which is connected by a lead 45 to a resistor 45 of suitable value for restricting the energization of the starting motor during the meshing operation. Resistor 45 is connected by a lead 41 to starting motor 45 which is grounded at 55. The extended armature shaft 45 of the starting motor carries suitably fixed thereon a screw shaft 5| on which is threaded a pinion 52 for automatic traversal into and out of engagement with an engine flywheel gear 53, the engaging position of the pinion being defined by an abutment 54 suitably fixed to the screw shaft as indicated at 55, cushioning means 55 being preferably interposed between the pinion and abutment.

A detent 58 is slidably mouthed in the motor housing 59 in position to engage the teeth of pinion 52 when projected into operative posltion to thereby insure traversal of the pinion 52 by initial rotation of the screw shaft 5|.

Detent 55 is normally held outoi engagement with pinion 52 by means of a spring 5|. An electromagnet 52 is arranged when energized to move the detent into operative position, and is connected by a lead 53 to the starting circuit lead 45 and by a lead 54. to the starting motor lead 41.

Means for short-circuiting the resistor 45 is provided in the form of a bridging switch 55 arranged to be actuated by a solenoid 56.. Solenoid 55 is connected by a lead 51 to the starting circuit lead 45 and by a lead 58 to a flxed contact 55. A mating contact 1| is mounted on a pendulous spring strip I2 which is anchored and grounded at 13 and has at its free end a bob 14.

Means are provided for normally holding contacts ll, 5! open in the form of a pivoted arm 15, the free end of which carries a roller 15 arranged to engage the bob l4 and bend the spring strip 12 backward. A solenoid H is arranged to actuate a plunger 18 having

flanges

19 and 8| arranged to engage a pin 52 on the arm 15 and thereby move the arm into and out of operative position. Solenoid TI is connected by a lead 53 with the lead 51 of solenoid 55, and is grounded at 54. when the swinging arm 15 is moved by the solenoid." out of engagement with the bob 14, it is arranged to set the spring strip 12 in pendulous vibration whereby effective closure of contacts 55, H is delayed for a predetermined time interval.

In the operation of this embodiment of the invention, closure of the starting switch 44 causes energization of the starting motor 45 at low voltage by virtue of the resistor 45 in the starting circuit, whereby the starting motor rotates slowly. At the same time the electromagnet 52 is energized, causing detent 55 to engage between the teeth of pinion 52, thus resisting rotation thereof and causing it to traverse into engagement with the engine gear. At this time solenoid I1 is also energized, causing the arm 15 to swing down to the position illustrated in Fig. 2, thus freeing the ,bob I4 and setting the pendulum I2 in vibration.

After a predetermined time interval, contact ll comes to rest against contact 59, thus causing energization of solenoid 55 to close the bridging switch 55. Starting motor 45 is thereupon fully energized to crank the engine, and at the same time electmmagnet 52, being short-circuited by the bridging switch 55, is deenergized and the detent 55 is returned to idle position by the spring 5|, the parts then assuming the positions illustrated in Fig. 3.

when the engine starts, pinion 52 is traversed back to idle position by the overrunning action of the engine gear. Opening of the starting switch 44 by the operator thereupon deenergizes the solenoid 55, thereby permitting bridging switch 55 to open, and deenergizes solenoid I1,

thus permitting arm to open contacts '69, H.

In Fig. 4 of the drawings there is illustrated an arrangement whereby the pinion detent is used to so define the rotary position of the pinion as to facilitate its entry into mesh with the engine gear without tooth interference. It has been found in practice that in most starting installations, abutment of the pinion teeth against the ends of the flywheel teeth occur more frequently in certain relative positions of the pinion than in others. Thus, tooth abutments between a single tooth of the pinion and a single tooth of the flywheel may under some circumstances be considerably less troublesome than abutment of two teeth of the pinion with two teeth of the flywheel. By suitably positioning the detent 58,

the pinion may be arranged to always present a single tooth to the flywheel gear, or the pinion may be so positioned that a tooth space of the pinion is bisected by the line joining the axes of the pinion and flywheel gear whereby two teeth of the pinion are caused to simultaneously engage with the engine gear, or any intermediate position found to be advantageous may be chosen.

Another advantage of the use of the, detent is that since the traversal of the pinion is assured thereby irrespective of the slowness of rotation of the motor shaft, the

resistor

6 or 46 may have such a value as to cause the initial rotation of the starting motor to be quite slow whereby very little kinetic energy .is stored up in the rotating parts during the meshing operation, and very little, if any, yielding buffer arrangement is required to cushion the impact of the pinion against the

abutment

9 or 59.

Although but two embodiments of the invention have been shown anddescribed in detail, it will be understood that other embodiments are possible and various changes may be made in the design and arrangements of the parts without departing from the spirit of the invention as defined in the claims appended hereto.

What is claimed is: r

1. In a two-stage starting system for internal combustion engines, a starting circuit including a battery, a starting switch, a starting motor and a resistor in seriestherewith for reducing the voltage of the battery initially applied to the motor, starter gearing for connecting the motor to a member of the engine to, be started including a pinion movable longitudinally into engagement with the engine member by initial rotation of the motor, a detent for opposing rotation of the pinion to insure its traversal into operative position, means normally maintaining the detent in retracted position, a solenoid connected in shunt with said resistor for moving the detent into engine member.

2. A two-stage starting system as defined in claim 1 in which the means for short-circuiting the resistor and detent solenoid includes a solenoid controlled by the starting switch for closing the bridging switch, arid means for delay ing energization of the switch solenoid.

3. A two-stage starting system as defined in claim 1 in which the means for short-circuiting the resistor and detent solenoid includes a solenoid controlled by the starting switch for closing the bridging switch, and means for preventing effective closure of the switch solenoid for a predetermined time after closure of the starting switch.

4. A two-stage starting system as defined in claim 1 in which the means for short-circuiting the resistor and detent solenoid includes a solenoid controlled by the starting switch for closing the bridging switch, and a switch actuated by the detent when the pinion is fully engaged with the engine member for actuating the bridging switch solenoid.

5. A two-stage starting system as defined in claim- 1 in which the means for short-circuiting the resistor and detent solenoid includes a solenoid controlled by the starting switch for closing the bridging switch, a switch abtuated by the detent when the pinion is fullyengaged with the engine member for actuating the bridging switch solenoid, and means for maintaining energization of the bridging switch solenoid to hold the bridging switch closed irrespective of opening of the detent switch.

6. A two-stage starting system as defined in claim 1, in which the detent is arranged to so position the pinion rotarily as to facilitate the entry of the teeth thereof into engagement with the engine member. 4

7. In a starting system for internal combustion engines, a starting circuit including a battery, 9. starting switch, a starting motor, gearing for connecting the motor to an engine to be started including an engine gear, a pinion movable longitudinally into engagement with the engine gear by initial rotation of the motor, and a detent for opposing rotation of the pinion to, insure its traversal into operative position, said detent being arranged to so position the pinion rotarily as to facilitate the entry of the teeth thereof into