DE242316C - - Google Patents

Description

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PATENT OFFICE.

PATENT LETTERING

- M 242316 CLASS 46 e. GROUP

BOULTBEE BROOKS IN BIRMINGHAM

and FRANK HERBERT ALSTON in SMALL HEATH B.BIRMINGHAM, Engl.

Magnetic electric igniter for explosion engines. Patented in the German Empire on January 16, 1910.

The present invention relates to high voltage ignition apparatus for eplosion engines and is for the purpose of taking improved precautions by which a rapid change in strength and in the direction of the magnetic field of the induction coil being used or of the high-voltage transformer can be brought about. It is now known to have one

ίο current sent through the ignition coil interrupt and by means of a commutator shortly thereafter the current in the opposite direction Send direction through the ignition coil.

The disadvantages of the commutator suddenly become apparent in the subject matter of the invention acting interrupter device avoided.

Furthermore, a reversal of the current at the moment of ignition is brought about by that the armature coil is divided into two halves, which are successively so with the by a breaker with tear-off contacts Ignition coil are connected that the current of one armature coil half through the primary winding the ignition coil flows until it has reached its maximum value, is interrupted and in the same instant the current of the other half of the armature coil in the opposite direction through the primary winding the ignition coil is sent. The current flowing through the primary winding of the induction coil or transformer is suddenly reversed in its direction. That suddenness in change the strength and direction of the magnetic field are used to generate a very intense, d. H. hot, effective spark in the explosion cylinder of the engine.

The attached drawing shows:

Fig. Ι a longitudinal section through a according to of the invention set up magnet-electric machine, which is preferably used for ignition purposes to be used in four-cylinder explosion engines.

Fig. 2 shows a schematic representation of the arrangement.

Fig. 3 shows in a cross section the interrupter device in a front view.

Fig. 4 shows a side view of the breaker.

Fig. 5 shows in a section the rear side of the interrupter.

6 shows a section taken horizontally through the armature.

With ι the armature of the machine and with 2 the induction coil is referred to, their arrangement in the cavity above the anchor. The armature has the two windings 3, 4 for low Tension. One end of each of these windings is at 5 (Fig. 2) in through the Brought anchor core and the machine frame extending ground fault. The others Ends of the coils are in communication with

the changeover interrupter of special training described in more detail below. As a result of this device, said windings can be connected alternately in series with the primary winding of the induction coil. The two windings are wound in the same direction (Or in other words: they consist of a single winding whose center point is in the earth fault); accordingly, the current generated in one winding flows (if the winding is in an electrical circuit located) in the opposite direction to that of the current of the other, in the circuit set winding.

The changeover interrupter, which is automatically either mechanical by means of a the magnet-electric machine provided with the thumb or electromagnetically in effect can be set, is of such an arrangement that at the moment when the current in the one winding, which with the induction coil is connected, has reached its maximum value, the contact is interrupted is switched on and the other winding, which carries current in the opposite direction, is switched on will. The current of the second winding now flows through the primary winding of the induction coil in the opposite one Direction so that the magnetic field is reversed and produces a highly intense spark will.

In the arrangement shown, the ends of the double coil 3, 4 of the armature 1 are with the isolated metallic contact strips 6, 7 connected, which from one end of the Spindle 8 protrude. The outer ends of these strips are bent over accordingly. The interrupter is attached to a plate 9 made of ebonite, which is connected to the spindle 8 by two diametrically opposed to each other in holes 10, 11 of the Plate 9 engaging pins 12, 13 is connected, which in turn at a 'at the spindle end provided collar 14 are attached. On the rear surface of the plate 9 are two resilient ones Contact pieces 15, 16 are provided which touch the connection strips 6, 7 of the windings. .

The contact piece 15 is carried by a transverse rod 21 (Fig. 5), which with their both ends are connected to the inner ends of pins 23 by means of nuts 22. Between the heads 24 of these pins 23 located on the front side of the plate 9 is a swinging frame 25 arranged, which a forward extending thumb-like acting part 26 has. On this part 26 presses a spring 27, which through the free ends of a metallic plate 28 is formed by the heads 24 of the Pins 23 is attached to the plate 9. On the inner surface of what looks like a thumb Part 26 of the frame 25, a contact piece 29 is provided, which with the free The end of one winding 3 of the armature is in connection. The contact piece 16 is carried by the crosspiece 30, which is in electrical communication with a bridge 31 is., which is arranged on the front surface of the plate 9 and an adjustable contact screw 32 carries, which is electrically connected to the free end of the other winding 4 of the armature connected is. Behind the swinging frame 25 there is a resilient tongue 33, the lower end of which is bent over in a U-shape and on the middle part of the plate 9 by means of the hollow sleeve 34 is attached. This box contains the under Brush 35 with a spring action, which is in engagement with a ball bearing contact 36, which is located inside the detachable closure cap 37. The ball bearing contact 36 is in connection with a clamping screw 38 provided on the outside of the cap 37, from which the current is routed to the primary winding of the induction coil. The resilient tongue 33 carries at its outer free end two contacts 39, 40 of which the former usually makes contact with the screw 32 while the other usually, opposite contact 29 on the swinging thumb lever 25 stands out of contact with this. Inside the cap 37 are two of each other diametrically opposed rollers 41 arranged, which are in the path of the thumb-shaped Extend part 26 of the swinging frame 25, which it passes through when the armature rotates. While the time during which the part 26 of the lever 25 is out of contact with the rollers 41 is located, the contact piece 39 of the resilient tongue 33 provides contact closure with the adjustable arranged screw 32, the winding 4 of the armature being connected in series with the external circuit will. The current first flows to the contact piece 16 and then to the bridge 31 the contact screw 32, the resilient tongue 33, the central sleeve 34, the brush 35, the Contact 36, the clamping screw 38 and from this after the primary winding of the induction coil and to earth. At the moment in which the current produced in the armature winding 4 reaches its maximum value, the thumb-like acting end 26 of the swinging frame piece 25 comes into contact with one of the rollers 41 on the end cover. Here the lever 25 is pushed back, so that its contact piece 29 the contact piece 40 on the resilient tongue 33

Claims (1)

touched. Here, the second winding 3 of the induction coil is connected to the external circuit tied together; With the further movement of the oscillating lever 25, the same presses however, the resilient tongue 33 further back, so that the contact tip 39 of the same from the contact tip of the adjusting screw 32 is lifted, so that an interruption of the The current flowing through the armature winding 4 takes place, while the other winding 3 is in the The circuit remains short. Since the direction of the current in this second winding is opposite to that of the first,! the current flows through the induction coil in the opposite direction to that in which it flowed before. The thumb-shaped end 26 of the swinging lever 25 is designed so that this lever remains pushed back until the current is its Has reached the minimum height. Then the part 26 of the lever 25 leaves the roles, wherein the winding 3 switched off and the winding 4 switched on again in the circuit will. Since the interruption of the circuit extending over the winding 3 takes place when the current is at its lowest strength, it is not necessary that Contact tips 40, 29 between the oscillating lever 25 and the resilient tongue 33 made from platinum. Rather, it is only necessary here, as is known, a capacitor 42 between the adjustable contact screw 32 and the contact tip 39 on the to arrange resilient tongue. This capacitor 42 is preferably given its arrangement at the anchor of the machine, so that it rotates with it. The side of the same, the is to be brought into connection with the resilient tongue 33, stands through the armature spindle 8 with a central insulated brush at the end of said spindle in connection, so that Contact is made at the rear of the plate 9 of the interrupter device by contact with the inner end 44. 45 (Fig. 1) of the central sleeve 34 takes place through which the tongue 33 receives its attachment. The other side of the capacitor is with connected to the part of the armature winding that is connected to the contact screw 32. In a modified embodiment of the invention, the interrupt and Making the contacts can also be reversed, whatever the purpose of the vibrating Lever 25 would have to remain pushed back until the maximum position is reached, whereupon it is triggered so that the breaking of the previously established contact and the establishment of the previously interrupted contact takes place. The capacitor is here across the contacts that break the circuit when the current is on Has reached the maximum value. However, the invention is not limited to the use of the above-described interrupter device, because instead of the same, another breaker is used can get, which turns off one winding when the current reaches its maximum value and the circuit through the other winding. In order to allow the ignition to occur sooner or later, this is the role 41 supporting housing 37 connected in a known manner to the swinging sleeve 45, which carries the time setting lever 46, so that when this lever is rotated Time of interruption can be changed accordingly. Patjjnt claim: Magnetic electric igniter for explosion engines, at which the current flowing through the induction coil at corresponding times in its direction is automatically reversed, characterized in that the armature of the magneto-electric The machine is equipped with two coils, which alternately come into effect automatically Current reversing device with tear-off congo clocks in circuit with the induction coil be set in such a way that the currents from the two coils pass through the latter in opposite directions flow, the current generated in one coil being interrupted when it reaches its maximum voltage and in at this moment in time the closing of the circuit led through the other coil he follows. 1 sheet of drawings.