DE2054344A1 - Contactless igniter - Google Patents

Description

Contactless ignition device

The invention relates to a contactless ignition device for an internal combustion engine, consisting of a direct current source, a multi-stage transistor amplifier and a high-ratio transformer.

In such ignition devices it is necessary that the mechanical ignition contact pair is replaced by a contactless arrangement which generates the ignition spark at the spark gap of the ignition apparatus. Mechanical ignition contacts have the known specialist parts that they wear out relatively heavily, that they change during operation, so that the working conditions shift from a favorable state to less favorable conditions, but above all that their puncture is affected is strongly influenced by moisture, especially with simultaneous or subsequent cheers, which can lead to complete failure. For an ignition device working without such contacts it is necessary that it ignites just as reliably and that the ignited spark has the same ignition energy as in the case of the mechanical ignition contact. 108821/1378 _ ₂ _

It is known to carry out sudden voltage changes in the primary circuit of an ignition transformer, which result in corresponding voltage surges in the secondary circuit which are applied to the ignition spark gap. For example, magnetic microswitches have been used same very expensive and require high precision in the execution, and adjustment. in addition, it is also necessary that the Zündspannungstöße min produced a single ignition device in the correct cycle the ignition spark gaps of the individual cylinders of the .Motors be supplied.

The invention is based on the object of generating the voltage pulse for the ignition spark in a contactless manner, but in such a manner Form that he simultaneously the individual spark gap of the engine is supplied in the correct cycle.

According to the invention, this object is achieved in that a light source is provided within an aperture wheel with a stylet-shaped aperture and a photocell is arranged outside the aperture wheel and opposite the light source, which is between the tapping point a voltage divider, formed from a diode and a resistor and connected to a DC voltage, and the Base of a transistor operated in emitter base circuit is, the collector of the transistor once via a load resistor to the storage DC voltage, -more is connected to the base of a next, also operated with the base circuit transistor, whose collector in turn, again with a load resistor and the base

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of a next transistor is connected in emitter-base circuit, etc. for an even number of transistors, where the collector of the last transistor is connected to the primary winding of an ignition transformer on its secondary winding The ignition spark gaps of the internal combustion engine are connected via the ignition distributor.

F-ach another inventive idea is between basis and the collector of the first transistor is connected to a stabilizing capacitor.

According to the invention, it is also parallel to the voltage divider diode a second diode with reverse blocking direction switched on the photocell.

In carrying out the idea of the invention, the light source-photocell arrangement and all other switching elements are arranged in a housing in which one has a dog clutch of the camshaft of the motor driven shaft is mounted on which the aperture wheel is arranged, this housing is closed by a soldering voltage-proof cap, which carries the connections for the leads to the spark plugs.

According to the invention, the opening voltage for the transistor of the first stage is approximately 0.67 V, the voltage drop across the voltage divider diode about 0.25 V and the voltage supplied by the photocell in the box is about 45 V.

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The advantages achieved by the invention are in particular that the actual primary switching element, namely the light source with the aperture wheel and the photocell circulate with the machine in exact cycle, but have no mechanical contact with each other. So united the device according to the invention has the precision guaranteed by mechanical coupling with the lack of any that Parts subject to wear. The ignition circuit itself has a simple structure and is therefore economical to manufacture. she is designed so that it is practically independent of the inevitable Small changes in the characteristics of the diodes, transistors and other switching means. But also that mechanical construction is robust and simple in form, although it contains all parts of the device in a very small space. the Functional safety of the device is increased by the additionally provided switching means for rendering stray voltages harmless, namely the capacitor and the second Diode.

ψ An embodiment of the invention is shown in the drawings.

Fig. 1 is a perspective view of an ignition distributor according to an embodiment of the non-contact Distribution amplifier according to the invention, partially cut.

Fig. 2 is a circuit diagram of the non-contact distribution amplifier of the invention.

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According to Pig. 2 is provided DC power for the circuit through the battery 10, which is a standard vehicle battery can be. One pole of the battery 10 is grounded at 12. From the at the other pole of the battery, a line 14 goes out. One switch 16 is provided in this line 14 for opening and Closing the circuit. The switch can be a conventional vehicle ignition switch.

A line 18 leads from line 14 to '' -;.; Earth. On the line 18 a light source 20 is provided. A load resistor 22 is also provided in the line 18. the The task of this light source 2o is to excite a photocell.

Four transistors 24, 26, 28, 30 are connected as four amplifier stages. Each of the transistors is connected in Emitterbaasschaltung '... The transistors can be, for example, HPitf transistors, but PWP transistors can also be used if desired.

The collector 32 of the transistor 24 is connected to the line 14 via the line 34. In the line 34 there is a load resistance 36 »in the present example of 2.2 kOhm intended for a load capacity of 0.5 W. The emitter 38 is connected via line 40. The base 42 is via line 46 with a Line 44 connected. A photocell 48, preferably one Junction photocell, is turned on on line 46. A load resistor 50, in the present example of 4.7 kOhm and 5 W load capacity is in line 44 between

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see line 14 and the connection with line 46 is provided. In the line 44 between the VerMnd | ingv | ii.t line 46 and A diode 52 is attached to earth. It is connected in such a way that it allows current from lines 14, 44 to pass through to earth. With a line 56 is a second diode 54 between line 46 and line 44 connected at a point between diode 52 and ground. This diode. 54 is connected so that they is current-permeable in the opposite direction as the diode. With a line 60 is a capacitor 58 with a collector, 32 and base 42 interconnected. The capacitor 5; 8 has-the Task to stabilize the function of the transistor 24.

The collector 62 of the transistor 26 is via a line

connected to line 14. On-load resistance 66, In the present example with 1 kOhm with a load capacity of 5 W, 64 is provided in the line. The emitter 68 of the transistor 26 is grounded via line 70. The base 72 is connected to the collector 32 of the transistor 24 via line 74.

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w The collector 76 of the transistor 28 is via line 78 ^; connected to line 14. A resistor 80, in the previous example of 0.5 kOhm and 0.5 W load capacity, is in the line 78. The emitter 82 of the transistor 28 is grounded via line 84. The base 86 is connected to the collector 62 of the line 88 Transistor 26 connected.

The collector 92 of the transistor 30 is connected via line 94 Line H connected. The primary winding 96 of a high-ratio Transformer 98 is connected to line 94. The secondary winding 100 is via line 104 with a

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_ ₇ _ 205A344

Spark gap 102 connected. This spark gap can, for example be the spark plug of a vehicle engine. An ignition distributor 106 is provided in line 104. He leads the output high voltage of the transformer 98 to the corresponding spark plug. The emitter 108 is grounded via line 110. The base 112 is on line 114 with the Collector 76 of transistor 28 connected.

The parts of the circuit shown in FIG. 2 are built into the housing 116 of the distributor 106. The distributor 106 has the usual construction. The one in Pig. ' 2 drawn circuit is this construction adapted to the need to avoid having to provide a manifold in special construction to the present invention in existing To use auto distributors.

The housing 116 consists of an enlarged cylindrical part 118 which is open at the top. It houses a rotor arrangement 120 which is driven by an axle 122. The axis 122 goes through an extended part 124 _f in which it is mounted in a suitable manner. A claw shaft coupling 126 is provided on the outer end of the shaft 122. It establishes the drive connection to the machine's camshaft. A centrifugal propellant mechanism is provided under the rotor 120. Because the usual switching pieces and capacitors are omitted, there is enough space for them

13d switching elements. These are conveniently in a housing / under

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brings that below the section 118 adjacent to de inner circumference is attached * A cup-shaped folding wheel 132 is mounted centrally in the housing part Ü8 on your Roter 12Ö and rotates with it * The wheel 132 has a pulled down Side wall 134. Ill of this side wall construction 134 is a plurality of spaced apart from each other Slots 136 provided »the number of Eahi of the spark plugs corresponds in the vehicle engine; The idrb source 20 is within of aperture wheel 152 * üiö photocell 48 in housing 130 appropriate. Its "surface is so visible * that it is from the One of the slits 136 will soon receive light both lies »

The distributor cap is shown in the usual way on top of the housing 116 mngfebiätjht * ÖIö is from plagtiSülreto Material made $ so that they lie against the one on the manifold ^ de high tension is certain * It fits Böhließend on dää öehällöB 116) to prevent moisture and dirt from entering to prevent the ÖhäüBe * Inside the Q-eh'äuseä 116, fund um the outskirts of his itihörehi are intended to make contact $ that lead to the spark plug. Attached over linen at the Rotb "3" central connection are oils to Hü'eh'spänhung * close.

Mode of action

When the switch 16 is closed in FIG. * 2, the * is Battery voltage on lines 18 »44 * 34, 64, 78 and 94. The light source 20 is connected to voltage. Assume that the aperture wheel 132 is currently in a position in which none of the Slits 136 facing the photocell 48, then the

1D982W1378 _{or similar}

Photocell 48 is de-energized and does not supply any voltage. The 1 / id. he stood 50 and the diode 52 form a voltage divider with respect to the base 42 of the transistor 24. The voltage drop across the diode 52 is insufficient to provide the necessary bias for transistor 24 to become conductive. The voltage drop at the diode 52 is approximately 0.25 V in the present example. The gate voltage required for the transistor 24 is In the present example about 0.67 V. The transistor 24 is therefore blocked.

When transistor 24 is blocked, a bias voltage is applied to base 72 of transistor 26. It is thereby opened. When saturation is reached, the voltage drop becomes apparent, formed by the collector - emitter circuit of transistor 26 becomes, the value 0. As a result, the entire battery voltage is across resistor 66. Line 88, from base 86 of transistor 28 is practically at ground potential. As a result, there is not enough bias to power the transistor 28 to make it conductive. This transistor is therefore blocked.

When transistor 28 is off, the base is biased 112 of the transistor 30 supplied so that it is conductive. When transistor 30 is opened in this way, current flows through the primary winding 96 of the transformer 98 and therefore builds a pId in him.

If one of the slots moves into opposition with the photocell 48, the light that hits the photocell excites 48 falls, the same, whereby it emits a working voltage.

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The voltage generated by the to · ζ line 48 is approximately 0.45 ⁷ V. This voltage, in addition to the voltage at the diode 52, is high enough to generate the opening bias for the transistor 24 . When transistor 24 conducts, transistor 26 ceases to conduct because the junction of lines 74 and 34 at a point between collector 32 and resistor 36 is practically at ground potential as soon as transistor 24 approaches saturation. '

When transistor 26 stops conducting, it becomes biased applied to the base 86 of the transistor 28, so that this transistor is conductive. If the transistor 28 is open, so the transistor 30 is blocked because the connection of the lines 114 and /? 8 approaches the ground potential as soon as Transistor 28 reaches saturation.

When the transistor 30 stops conducting, "the breaks of ^ the Primary winding 96 of the transformer 98 built up "field together. As a result, it induces a high voltage in the secondary winding 100, which is sufficient to the spark gap 102 To bring rollover. This voltage is fed to the correct spark plug through the ignition distributor 106.

In connection with the mode of operation of the circuit, it should be noted that the diode 54 must ensure that stray voltages, for example from the stabilizing capacitor 58, are diverted. The capacitor 58 is important in FIG. ^1. because it ensures that transistor 24 is exactly in the

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Way as it is necessary, because the small tensions, which we are dealing with here must be in fine balance. Incorrect conduction of transistor 24 would result in failure of the whole system ".

109821/1378

Claims (5)

20543 Claims (i.JContactless ignition device for an internal combustion engine, consisting of a fine direct current source, a multi-stage transistor amplifier and a high-translation Transformer, characterized in that a light source is located inside a diaphragm wheel (132) with slit-shaped diaphragms (136) (20) and outside the aperture wheel (132) and opposite the light source (20) a photocell (48) is arranged, between the tapping point of a diode (5 2 30and a resistor (50) formed on a DC voltage lying voltage divider and the base of a transistor (20) operated in ". * emitter-base circuit, the Collector of the transistor (24) once via a load resistor (36) to the DC supply voltage, further to the Base (72) of a next, also operated in emitter-base circuit transistor (26) is connected, desse.n collector (62) in turn wMer with a load resistor (66) and the base (86) of a next transistor (28) in an emitter-base circuit connected, etc. for an even number of transistors, the collector of the second transistor (30) is connected to the primary winding (96) of an ignition transformer (98), to its secondary winding (IOO) via the ignition distributor (106) the spark gaps (102) of the combustion 'engine are connected. - 13 - 109821/1378 . ₁₃ _ 2. Contactless ignition device according to claim 1, characterized that between the base (42) and collector (32) of the first transistor (24) is a stabilizing capacitor (58) is switched, 3 * Contactless ignition device according to claim 2, characterized in that that parallel to the voltage divider diode (52) on the photocell (48) a second diode (54) with reverse Blocking direction is switched. 4. Contactless ignition device according to claim 3, characterized in that d-aß the light source iOto cell arrangement (20 - 48) and all other switching elements in one housing (106) are arranged in which one via a dog clutch (126) from the camshaft of the engine driven shaft (122) is mounted on which the diaphragm wheel (132) is arranged is, this housing (106) by a high voltage resistance Cap (116) is complete showing the connectors for the leads to the spark plugs. 5. Contactless ignition device according to claim 4 »characterized in that that the opening voltage for the transistor the first stage (24) about 0.67 V, the voltage drop the voltage divider diode (52) about o, 25 Y and that of the exposed photocell (48) supplied voltage of about 0.45 V amounts to, 109821/1378