DE1064431B - Escapement with constant drive for electric clocks - Google Patents

Description

Escapement with constant drive for electric clocks The present one The invention relates to an escapement with a constant drive for electrical Clocks. In watchmaking it is now known that the usual escapements result the friction consume a large part of the drive energy transmitted to the balance wheel; The friction conditions are different depending on the condition of the lubricating oil. As a result of these facts, the accuracy of the movement of the balance wheel changes. Man therefore has already known anchor escapements with a constant drive for electric Watches created in which a fork is operated by means of an electrical organ periodically pre-tensionable impulse spring from one end position (rest position) to another End position can be moved in such a way that it generates periodic pulses when it moves the balance wheel transmits, whereby the fork can be held in the rest position by magnetic forces and from this can be triggered by moving a lifting pin on the balance wheel. However, these are not normal anchor escapements of the usual type which the usual mass-produced parts can be used, but it is necessary, especially due to the design of the impulse spring as an S-shaped toggle spring, Custom made. Also with these inhibitions, because the one here is as contact-controlled Holding magnet designed as an electromagnet not directly, but via the toggle spring acts on the fork, namely at the end of the fork, the friction is not reduced so much, that an unction would be completely unnecessary; likewise these need inhibitions still a relatively large amount of space, because the impulse spring is also spatially between the Fork and the two magnets is switched.

The invention is based on inhibitions of the aforementioned type and aims to improve this significantly. You achieve this according to the invention in that as Pulse spring a spiral spring arranged around the fork shaft in such a way that it is used can act directly on the fork shaft and that such a dimensioned and so arranged additional permanent magnet is provided that this through direct action on the fork when the impulse spring is pretensioned the fork in able to hold on to the rest position.

This inventive design of the inhibition, namely through the direct action on the one hand of the impulse spring on the fork shaft and on the other hand the additional permanent magnet on the fork is a practically perfect balance of the forces achieved during the impulse and during the rewind the pulse generator work. But with that the escapement works with constant force, and In addition, oiling is no longer necessary. Furthermore, with this arrangement parts manufactured in series with normal tolerances are used, which is affects the manufacturing cost of the watch, although the same great accuracy and has a long service life.

The drawing shows an embodiment of the subject matter of the invention. The single figure represents a schematic plan view, with only those for the Understanding the invention required parts are shown.

The drawn escapement can be used, for example, in the work of a Element connected to the electrical clock. In the drawing means 1 a balance of a known type, which with the disc 2, a lever pin 3 and a Spiral spring 4 is equipped. The balance 1 is specially trained Anchor fork 5 actuated, which transmits periodic pulses to the lever pin 3.

The fork 5 is provided by means of pins provided on both sides of the shaft 6 stored in bearings not shown. The fork 5 has two fork tips 7 and 8 of unequal length, the shorter of which is used as a stop for the free end of a leaf spring 9, the other end of which is riveted to an ear 10 attached to the fork hub is. On the arm of the fork 5 opposite the fork tips 7, 8 is on the one hand a contact block 11 attached and on the other hand an iron pin on its end 12. A spiral-shaped impulse spring 13 is at its inner end on the fork shaft 6 and with its outer end on a clamp 14 attached to the is in turn connected to the negative pole of an electrical element 15.

16 denotes an electromagnet, its designed as a lever Magnetic armature 17 is pivotably mounted in a carrier 18. At its free end carries the armature 17 a contact block 19, the to cooperate with the on the fork 5 attached contact 11 is determined. A return spring 20 seeks to keep contact 19-11 open. The electromagnet 16 is connected to a terminal 21, which in turn is connected to the positive pole of element 15.

In the following, a small permanent magnet is designated by 24, which is used for Tightening the iron pin 12 of the fork 5 is intended. 25 is a fixed stop, which determines the rest position of the fork 5.

The effect of the escapement described is as follows: The fork 5 is under the influence of the pulse spring 13, which is biased so that it the balance wheel 1 gives oscillations with the same amplitude. The pulse spring 13 is periodically biased by means of the electromagnet 16, the magnet armature 17 of which at closed circuit 15-14-13-6-11-19-20-16-21 will be attracted, thereby Contact 19, which cooperates with the contact block 11, pivots the fork 5; the fork shaft 6, at which the inner end of the impulse spring, also rotates 13 is attached.

In the rest position drawn in full lines, the fork 5 is on fixed stop 25 and is held in this position by the permanent magnet 24. which attracts the iron pin 12. The attraction of this permanent magnet 24 is slightly larger than the force of the impulse spring 13.

If the balance wheel 1 moves in the direction of the Arrow F1 of the lever pin 3 of the latter between the fork tip 7 and the leaf spring 9 penetrates the fork 5, it tears the fork 5 away from the permanent magnet 24, whose Attraction rapidly increases with the ever increasing distance of the pin 12 decreases. Now the impulse spring 13 acts on the fork 5, which by means of her Tip 7 transmits the impulse in the direction of arrow F1 to lever pin 3: the The size of this impulse is sufficient to ensure that the balance wheel oscillates. At the end of the pulse, which position is shown in dash-dotted lines, leaves the lever pin 3 - the fork 5, while this itself the contact 11 to rest to contact 19 of the lay anchor17. «-By the excitation circuit mentioned above is closed again. As a result, the magnet armature 17 is attracted by the electromagnet 16 and pushes the fork 5 in the opposite direction (V; Gl. Arrow F2) in the direction their rest position far enough back so that the permanent magnet 24 by its action on the pin 12 the force of the impulse spring 13 overcomes, whereby the fork 5 to the stop 25 strikes, which position is the starting position for the pulse movement or represents the rest position.

The: @lagnetailker 17 is held back by the stop 23, the is positioned so that the circuit is broken. before the fork the rest position has reached. d. H. at the moment at which Cier duration na-net 24 the pen 12 is able to attract again. The armature 17 is then activated by the return spring 20 brought back to its original position. During this time, the balance wheel 1 carries one half oscillation off, and when the lever pin moving in the direction of arrow F2 3 gets into the field of action of the fork 5, it strikes against it from right to left the end of the leaf spring 9, which extends beyond the fork tip 8. The feather 9 gives way to the pressure of the lever pin 3, and this slides over the spring 9. After another half oscillation, the one is in the direction of the arrow F1 recurring lever pin 3 recently at the entrance of the fork 5 and strikes from left to right on the leaf spring 9, which, however, cannot give way this time, because it rests against the inner surface of the shorter fork tip 8. Then the fork 5 taken in the direction of arrowFl, and under the influence of a new pulse in the direction of arrow F 'of the impulse spring 13, the game begins again.

Claims (3)

PATENT CLAIMS; 1. Escapement with constant drive for electric clocks with one of a periodically biased by means of an electrical organ impulse spring from one end position (rest position) to another end position movable fork in such a way that it transmits periodic impulses to the balance wheel as it moves, the fork through Magnetic forces can be retained in the rest position and, on the other hand, can be triggered therefrom by the movement of a lever pin on the balance wheel, characterized in that a spiral spring (13) arranged around the fork shaft (6) in such a way that it can act directly on the fork shaft serves as the impulse spring is, and that such a dimensioned and arranged additional permanent magnet is provided that it is able to hold the fork in the rest position by acting directly on the fork (5, 12) when the impulse spring is pretensioned. 2. escapement according to claim 1, characterized in that the attraction of the The permanent magnet (24) is dimensioned to be greater than the force of the pulse spring (13), that the fork (5), before it begins its impulse movement, only through the lever pin (3) the balance (2) can be torn loose from the permanent magnet (24) and removed so far must, until the momentum spring force equals the force of attraction, which decreases with the increasing air gap the magnet overcomes. 3. escapement according to claim 1, characterized in that the fork (5) is equipped with two tips (7, 8) of unequal length and with a leaf spring (9), the free end of which is the shorter fork tip (8) based on its inner surface so extended. that it clears the way for the lever pin (3) of the balance (2;) only in one direction of movement. Considered publications: German patent specifications No. 440 917, 705 966, 833 327: German utility model \ r. 1676 760.