DE500580C - Electromagnetic balance drive - Google Patents

Description

Electromagnetic balance drive It siri # 1 electromagnetic drive ricbtttngen known for balance clocks, in which by one or more electrical rnagnete through the intermediary of a fork and a lifting mechanism arranged on the balance arm pins, both of which form a contact member, the restlessness at every half oscillation Inipttl> is issued, with the driving force Force generated by an electromagnet ,; 1iatitite he # ler is held evenly. The invention relates to an electromagnetic table balance drive of this type, at (learn the Novelty (larin exists, claß the known Fork is designed as a double fork and in one of the two fork gaps a contact spring is arranged, so that the unrest at every other half oscillation a new one Only receives an impetus in one direction; because the lifting pin forming the mating contact occurs al) ivechsellirl depending on the correctness of the - @ Trirtihscliwiligtrng in the.; Ine wler the other the small tooth gaps of the double fork. With (double-sided drive are in both Tooth gaps of the double fork contact springs appropriate. In both cases they come Kontaktferlern i: 1i (round fork gaps closed are trrr-l; iri # 1 conductive with the electrical magnets vvrlittncleri. Through this wet nahnie becomes a in the simplest design secure frictional contact achieved. The drawing shows the electromagnetic tables drive for the unrest of Uliren of all kinds according to the invention in two types of execution clarified.

Figure i is a plan view and Figure 2 is a side view; Fig. 3 is a single view @ler contact lens arrangement Fig.4 shows a movement diagram of the Double fork in three different positions; Fig. 5 to 9 are individual representations.

With i and 2 the unrest of the clock is referred to, on the axis 3 one Double disc 4 is seated with the guide pin 5. The fork <,, designed as a double fork according to the invention, is arranged to be rotatable about an axis 7 and connected to this by means of a leaf spring g, one end of which in a the sleeve 9 attached to the axis 7 sits, while (read the other end freely movable in engages a slot io of the fork clip.

The end of the double fork 6 carries three prongs with fork corners 12 and 13, the inside width of which corresponds to (learn diameter of the lifting pin>. The contact spring 14. sits between I: clators i - [('and has its seat in the Arisclilägc ° n r8.

The movement of the double fork is controlled by the stops r9 and # 1 igu limited; the pin 20 prevents premature reversal of the fork in a known manner. Detnselbeii The purpose is also a lamella 21, - one end of which engages in a slot 22 of the sleeve 9 and the double fork 6 either against the presses one or the other stop ig or i ga. The armature 23 is when the contact closes attracted by the electromagnets 24 in a known manner.

The movement diagram of the double fork 6 is shown in Fig. D. the drawing shown. The movement of the fork is limited by the stops ig and iga. In the. In position I, the lifting pin 5 rests against the contact spring 14; the The electromagnet is therefore excited so that the fork 6 is now around the pin t rotates and takes pin 5 from right to left into position 1I. If the Lifting pin out of the left fork gap 12, the spring r brings the double fork to rest against the stop ig, position III. With the back oscillation the unrest occurs the lifting pin 5 is now in the right fork gap, in which no contact closure arises, so that the fork is taken to the right and the lifting pin is attached to the reaches the other end of its trajectory. After the new movement begins, the Reinsert the lifting pin into the left fork gap so that the process is repeated. Only when moving the lifting pin from position I to position 1I so the unrest receives an impetus by attracting the armature 23 by the electromagnet 2d ..

In Fig. 5 is another embodiment of the spring fork bearing shown. The coil spring 27 is on the one hand outside the fork axis at 28 and on the other hand to a pin 29 of the fork 6.

In order to avoid an elastic connection between the contact 14 and the magnet coil, a spiral spring 30 is insulated on the axis 7, one end of which is conductively connected by a rigid member 31 to the contact spring 14 and a second rigid member 32 to the electromagnet. If the unrest is driven on both sides, the double fork 33 has two contact springs 3.4 and 35 (Fig. 8), which are conductively connected to two electromagnets 36 and 37. The reversing stops ig and iga are no longer needed and are replaced by screws 38 and 39, which limit the pendulum movement of the fork.

Another embodiment of the double fork is shown in FIG. The fork .1.-l. carries thereby with the interposition of an insulating sleeve 48 a Socket 45 with two curved prongs 46 and ¢ 7.

In every design of the double fork, the contact springs are 1: 4 or 34 and 35 basically the fork gaps 12 and i 3.

Claims (3)

PATENT CLAIM: i. Electromagnetic drive for the unrest of Watches of all kinds with contact in the anchor fork, characterized by the use a double fork (6) with a contact spring arranged in one of the two fork gaps, for the purpose, with every second half-oscillation of the restlessness (i) this a new impulse in only one direction by the lifting pin forming the mating contact (5) alternately according to the direction of the balance oscillation in one of the two Fork gaps occurs. 2. Embodiment of the electromagnetic drive according to Claim i with a double-sided drive, characterized in that in both fork gaps (i 2. 13) of the double fork (6) contacts (3.I. 35) are attached. 3rd embodiment of the electromagnetic drive according to claims i and 2, characterized in that that the contact springs (1: 4 or 34th and 35) are basically the fork gaps (12, 13) of the Double fork (6).