Ignition apparatus for explosion-motors. (original) (raw)
G. F. KETTERING. IGNITION APPARATUS FOR EXPLOSION MOTORS. APPLIOATIOI FILED snrrr. 15, 1909.
1,037,491, Patented Sept. 3, 1912.
WIT ESSES: I INAVENTIOR 75x41. 5. JMMZM BY r I IORNEY UNITED. STATES PATENT,
CHARLES r. ammo, or narrow, 01110, 1 Assmiwfit "r0 DAYTON ENGINEERING mnonnronrns 00., A CORPORATION or 01110.
TGNITION APIARATUS FOR EXPLOSION-MOTORS.
Specification of Letters Patent.
Patented Sept. 3, 1912.
rupter for producing a single spark for each contact of the timer or distributer.
In the particular form of embodiment of the improvement for accomplishing this object, the interrupter magnet is provided with two coils or windings, one of high resistance and the other of low resistance. When a current is sentthrough the primary oi an induction coil, the current also flows through the low resistance winding of the interrupter, and causes the armature of the latter to be operated to break the current through said low resistance winding, and thereby produce the necessary spark. And this operation of the armature is utilized to establish a flow of current through the high resistance winding of the interrupter concomitantly with the breaking of the current through the low resistance winding.
The high resistance coil then serves to hold the armature in such position until the timer or main engine cont-rolled contactmaker has moved to break the current at that point. The parts of the interrupter then return to normal position ready for the next operation.
It will thus be seen that in the succession of operations due to the timer, a single'spark is produced each time the primary circuit is made and broken by the timer. 7
With the above mentioned objects in view, the invention consists in the novel combinations of parts, a preferred form of embodiment of which is shown in the accompanying drawings forming part of this specification.
In said drawings, Figure 1 is a diagrammatic View of the electrical connections; and
Fi 2 is a detailed view of the interrupter wit its electrical connections.
It will be understood that the parts shown are represented largely diagrammaticallyfor the sake of clearness in the description, and that in actual use they would be suitably inclosed in casings and mounted and insulated in convenient and customary ways.
battery B or other source of electric energy is utilized, and is connected by
wire
20 with the timer T. This timer is=arranged to distribute the current to the circuit formed by wire- 21, or to that of
wire
22, of the respective primary coils P and P the
projection
23 on the-timer serving to make the successive contacts as the timer revolves in the well-known manner. The primary P forms part of one induction coil, having the secondary S connected with the spark plug K Similarly the other induction coil has a secondary S for its primary 1, the former bein connected with the other spark plug K. his system is for convenience described for a two cylinder engine, but it will be readily apparent that it is applica- The purpose of the interrupter I is to break or produce in the primary current either through the primary coil P or primary coil P according to the position of the timer T, such an abrupt change as will produce a secondary spark, and this break or change in the primary current occurs only once for each contact of the timer so as thereby to produce the single. spark in the secondary, as above referred to.
Referring particularly to the constructionv of the timer for producing this efiect, the-parts are shown in detail in Fig. 2. The interrupter has a
soft iron core
32 which when energized attracts the
bell crank armature
33. This armature is pivoted at 34 to an
iron framework
35 which is bent downward at its other end and connected to the
core
32 so as to form a. closed magnetic circuit.
Mounted above the frame or
arm
35 are three
contactstrips
36, 37 and 38, provided with suit-able contact points for making contact between the strips. These contact strips are suitably insulated from each other and from the
arm
35. v
The
wire
30 is connected to both the lowresistance coil or winding 40 and with the high resistance winding 41 surrounding the
core
32. The
low resistance wire
40 is connected by the
wire
42 to the under-
contact strip
38. The
high resistance
41 is connected by the
wire
43 to the
upper contact strip
36. The middle contact strip 37 is connected to the above mentioned
wire
31, which goes back to the battery.
The middle strip 37 projects outward over the horizontal arm of the bell crank.
armature
33, in such manner that when the armature is rocked on its pivot by the attraction of the
core
32, the horizontal arm is lifted, thereby striking the contact strip 37 and causing it to makecontact with the
upper strip
36 and at the same time breaking the contact with the
lower strip
38.
In the normal position of the parts, as shown in Fig. 2, the lower two strips, 37 and 38, make contact with each other, while the contact between
strip
36 and strip 37 is broken. It results from this construction that when the timer T has revolved so as to make contact through one or the other of the
wires
21 and-22 (and thus through one or the other of the primaries of the induction coils) the battery current flows through the
wire
30, through the
low resistance coil
40 to the under-
strip
38, thence to the middle strip 37 and
wire
31, back to the battery. The
core
32 is then energized and attracts the
armature
33 whereupon the horizontal arm of the armature is lifted and acts upon the middle strip 37 to break the contact with
strip
36 and thus break the current through the
low resistance coil
40.
The making of the contact between the
strips
37 and 36 results in a flow of current through the
high resistance coil
41, the current flowing through
wire
30,
coil
41, wire 3,
strips
36 and 37, and
wire
31 back to the battery. The high resistance coil then acts as an auxiliary to hold the armature attracted to the core until the main circuit is broken at the timer. This auxiliary circuit 1s of such high resistance as to permit the flow of a negligible amount of current.
is the form shown and described herein is one which is well suited for ac- .complishing the purposes of the invention,
it is to be understood that other forms of devices may be used without departing from the spirit of the invention and all coming within the scope of the claims which follow.
What is claimed is: 1. A spark controlling apparatus for explosion engines comprising in combination" a source of current, an mductlon coil and,
(spark device, a circuit-breaker in circuit with the primary of the induction coil, an auxiliary high resistance energizing circuit for said circuit-breaker, and means operated by the initial movement of said circuit breaker for controlling said auxiliary energizing circuit, as set forth.
2. A spark controlling apparatus forexplosion engines comprising In combination, a source of current, an induction coil for the spark plug of the engine, an interruptionm magnet, two windings of different resistance .75 thereon and forming separate paths'in the circuit for the primary of the induction coil, and an armature having connections to close one of said paths on breaking the other, as set forth.
3. A spark controlling apparatus for explosion engines comprising in combination a source of current, an induction coil for the spark plug of the engine, an interruption magnet in a low resistance circuit forming 85 part of the circuit of the primary of the in-,
duction coil, an auxiliary high resistance winding on said magnet, and an armature having connections to complete the circuit of said auxiliary winding when attracted by the magnet to break the low resistance circuit, as set forth.
4. In a spark controlling apparatus for explosion engines, a circuit breaker comprisinga magnet; a low resistance winding and an auxiliary high resistance winding thereon; contact strips connected to said low and said high resistance windings respectively, an intermediate contact strip located be, tween said former mentioned contact strips and connected with the main circuit; and an armature operated by said-magnet and having connections operating upon said inter-" mediate contact strip to retract the same from the contact strip of the low resistance winding and thereupon carry said intermev diate strip into contact with the strip of the I high resistance winding.
5. In an ignition system comprising a source of current, an induction coil and a spark device; the combination with a plurality of circuits of different resistance;
of an electrically actuated means operable by the current passing through one of said circuits to break said circuit and establish the other of said circuits.
Tn'testimony whereof I afiix my signature in the presence of two subscribing witnesses.
CHARLES'F. KETTERING. Witnesses:
CHAS. D. Bronson, J. B. HAYWARD.v