DE1214298B - Magnetically driven vacuum high-voltage switch, in particular ignition distributors for internal combustion engines - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. α .:

HOIh

German class: 21c-35/09

Number: 1214 298

File number: C 33230 VIII d / 21 c

Filing date: June 24, 1964

Opening day: April 14, 1966

The invention concerns high-voltage vacuum switches, in particular with magnetic actuation, with rotating movable switching element.

The subject of the invention is particularly suitable for cooperation with a piezoelectric Ignition voltage system for internal combustion engines, but can also be used advantageously anywhere where it depends on the adherence to precise switching conditions of high voltage.

There are reed switches in an evacuated switching vessel known for such purposes. These Tongues are arranged in an overlapping manner. Such switches have several disadvantages. For example the tongues must be sufficiently elastic so that they can come into contact with magnetic force. On the other hand, the tongue material must be so stiff that a sufficiently rapid opening movement is possible the reeds can be reached. Compensating for these demands is difficult. The time condition for opening this switch is important, because only by opening the switch quickly can the loss sufficiently limit the field energy for further ignitions. Compliance is also correct Ignition timing difficult if the reeds are too flexible or during the Be operational and then no longer the mentioned energy loss due to sufficiently fast Can prevent opening.

In addition, there is spark erosion at the tips of the common switch blades. To enlarge the service life, it is therefore common to cover the reed tips with a high-melting point material coating, for example tungsten. However, this material has a high specific weight and sits on it the point of greatest reed movement, whereby the inertia forces to be mastered by the magnet are considerably enlarged. In these known magnetically operated vacuum reed switches the gap between the tongues and the overlap area is a decisive stress factor, which in the calculation of the magnetic to be used for the closing movement of the tongues Flows into the river.

"""The invention avoids these deficiencies. Instead of two switching tongues, a rotating rolling element made of magnetically conductive material, in particular a ball, is proposed as a movable switching element according to the invention, which periodically bridges fixed switching electrodes located on its annular orbit in an insulating, non-magnetic switching vessel. The advantages are obvious The critical metal-magnetically driven vacuum high-voltage switches to be placed on switching reeds, in particular
Ignition distributors for internal combustion engines

Applicant:

Clevite Corporation,

Cleveland, Ohio (V. St. A.)

Representative:

Dipl.-Ing. W. Weinkauff, patent attorney,

Frankfurt / M., Georg-Speyer-Str. 1

Named as inventor:
Herman Lansing Vail Jr.,
Shaker Heights, Ohio;
Alfred Leslie Warwick Williams,
Cleveland, Ohio (V. St. A.)

Claimed priority:

V. St. ν. America July 30, 1963 (298 756)

traditional conditions are no longer applicable. The loss of electrical field energy by opening the switch blades too slowly is avoided. The switching time can be controlled more precisely because the arc length in the subject of the invention is only about half as large as the spark drawn by the reed switch, because the switching ball forms two opening paths connected in series. In addition, there is no overlap area of switching elements, so that the loss of electrical field energy is significantly reduced.
Further properties and advantages of the invention are to be explained with reference to the exemplary embodiment shown schematically in the figures. It shows

Fig. 1 shows an axial section in the plane I-I Fig. 2,

F i g. 2 is a plan view and

3 shows an example of a circuit for cooperation of the switch according to the invention as an ignition distributor for a multi-cylinder internal combustion engine ,, which is fed by a piezo crystal.

The F i g. 1 and 2 show a frame 10 which can be mounted on an internal combustion engine (not shown). It contains and supports the distributor shaft

609 558 / 30S

12, which can be coupled to the camshaft of the engine and carries the permanent magnet 14.

Furthermore, the frame 10 serves as a holder for the annular disk-shaped discharge vessel 16 made of gas-tight insulating material. Its inner circumference is formed by the sleeve 17, which is the permanent magnet 14 records. The switching vessel 16 forms the annular, evacuated cavity 18 To facilitate the production, it is made of two shells and in the radial parting plane as well as with the sleeve 17 is welded. One bowl has a small evacuation opening (not shown), which is then melted and collapses under the external overpressure. The frame 10 has several flange segments 11, each with a screwed-in spring clip 13, which form the discharge vessel on its seat in the frame and an adjustment of the angular position of the discharge vessel and Frame, so the ignition point, allows.

A switching ball 20 made of magnetizable conductive material is mounted in a rollable manner in the annular space 18, which converges in profile to the outside like a roof to interact with the rolling switching ball 20 to give a backlash-free guide with the centrifugal force, without the need for precise fits. An input electrode 22 and output electrode 24 are let into the switching vessel 16 and protrude something in its annular space 18. The switching electrodes are located one behind the other in the switching vessel in its axial direction and parallel to each other.

The permanent magnet 14 is provided for driving the switching ball 20. It consists of the axial oriented cores 14 c and the pole pieces 14 a, 146 seated thereon, which form the switching vessel overlap on both sides at the front and thus guide the magnetic flux through the switching ball 20.

During operation, this rotates with the magnet 14 sitting on the distributor shaft 12 and the switching ball 20, which periodically bridges the switching electrodes 22, 24.

By turning the switching vessel by hand in the frame 10 relative to the distributor shaft 12, if necessary after loosening the spring clips 13, the ignition timing can be adjusted, as already mentioned. It is also possible to use a conventional automatic ignition adjustment device instead of manual operation to connect.

In the embodiment of FIG. 3 this takes Switching vessel 16 has four pairs of switching electrodes, each comprising an input electrode 22 and an output electrode 24, distributed over the circumference of the switching vessel, in each case the input electrode 22 on the piezoelectric voltage source 28 is located, the output electrode at a spark gap 30. When the Distributor shaft 12 with magnet 14 rotates, the switching electrode pairs are successively bridged by the rolling switching ball, whereby as a result of the vacuum or an inert gas filling only a very small opening spark is drawn in the switching vessel, so that the switching electrode pairs can sit pretty close together. In the preferred embodiment with a piezoelectric It is advantageous to feed the high-voltage switch after each transmission of ignition energy to dissipate any remaining charge in the piezo crystal. According to FIG. 3 a discharge switch arm 26 is provided, which can sit on the magnet 14 and rotates with the distributor shaft 12. Each A discharge electrode 27 is assigned to the pair of switching electrodes, in the direction of rotation of the distributor shaft placed behind the input switching electrode 22 and at its potential. On this discharge electrode 27 follows in the direction of rotation a grounded electrode 29. Both electrodes are through the Discharge switch arm 26 bridged after the spark gap by running off switch ball 20 opened again. The ground electrode 29 can be close to the switching electrodes 22, 24, and one of the pole pieces 14 a, 146 can act as a switching bridge be formed between the electrodes 22 and 29, creating the arrangement of a special Discharge electrode 27 is dispensable. But it could also be the discharge switch arm 26 itself are connected to ground and cooperate with the discharge electrode 27, whereby the ground electrode 29 would be saved.

The inner ends of the switching electrodes 22, 24 are in the roof-shaped running surface of the cavity for the switching ball 20 embedded flush, which means that the switching ball runs smoothly, less Wear and particularly rapid, exact opening of the current bridge can be obtained. ·

Claims (14)

Patent claims: 1. Magnetically driven vacuum high-voltage switch, especially ignition distributor for internal combustion engines with rotating movable switching element, characterized in that, that the movable switching element is a rolling element (20) made of magnetizable conductive The material is stored in an annular space (18) of the insulating, non-magnetic switching vessel (16), which receives at least one pair of switching electrodes (22, 24) on its circumference, which to the orbit of the rolling element (20) is sufficient 2. Switch according to claim 1, characterized in that several pairs of switching electrodes (22, 24) distributed on the circumference of the switching vessel (16) and each aligned parallel to its axis are. 3. Switch according to claim 1 or 2, characterized in that the rolling body (20) has a Bullet is 4. Switch according to claim 3, characterized in that the annular space (18) in radial section has an outwardly roof-shaped converging profile. 5. Switch according to one or more of the preceding claims, characterized in that that the switching vessel (16) is annular disc-shaped and the axially aligned magnetic core (14c) concentrically surrounds the pole shoes (14a, 146) of which the switching vessel (16) on both sides overlap on the front side. 6. Switch according to claim 5, characterized in that that the inner surface of the switching vessel (16) by a preferably separate sleeve (17) is designed as a bearing for the magnetic core (14 c). 7. Switch according to one or more of the preceding claims, characterized in that that the switching vessel (16) is divided in its radial plane of symmetry. 8. Switch according to one or more of the preceding claims, characterized in net that the evacuated annular space (18) is filled in a known manner with inert gas. 9. Switch according to one or more of the preceding claims, in particular for Connection to a piezoelectric voltage source, characterized by one on the magnet (14) fixed discharge switch arm (26) connected to the high voltage source (28) Switching electrodes (22) designed to work together and lagging behind the rolling element (20) is adjusted. 10. Switch according to claim 9, characterized by the formation of the discharge switch arm (26) as a bridge for the switching path between two fixed electrodes, one of which (27) to the voltage-carrying switching electrode (22), the other (29) is connected to ground. 11. Switch according to claim 9, characterized in that that the discharge switch arm (26) is connected to ground and with a fixed electrode (27) is designed to work together, the voltage-carrying switching electrode (22) is connected via the voltage source (28). 12. Switch according to one of claims 9, 10 and 11, characterized in that a pole piece (14 a, 14 b) is designed as a discharge switching arm (26). 13. Switch according to one or more of the preceding claims, characterized in that that the switching vessel (16) rotatably mounted in the frame (10) and frictionally loaded by spring clips (13). 14. Switch according to one or more of the preceding claims, characterized in that that the inner ends of the switching electrodes (22,24) in the roof-shaped running surface of the Cavity (18) for the switching ball (20) are embedded flush. Considered publications:
British Patent Specification No. 545,818;
U.S. Patent Nos. 2,389,446, 2,584,907. 1 sheet of drawings 609 558/308 4.66 © Bundesdruckerei Berlin