DE580741C - Clock escapement, especially for operating time counters - Google Patents

Description

Clock escapement, especially for operating time counters For devices that contain a clockwork that works with frequent interruptions as a component, 'For example operating time counter, the watch escapement is the indispensable, but not easy to meet requirement that it always and in any arbitrary Time starts easily and safely. The clock spring driving the clockwork works only as long as an external process, for example the operation of a machine, lasts. If this stands still, the clock spring is blocked. In some embodiments the clockspring is only wound up by a small amount by removing its outer end grinds in the spring housing so that its follow-up time is very short. Such clockworks are drawn up by vibrating masses that respond to vibrations or changes in position respond, or mechanically, electrically, or pneumatically as a function of of the external process to be measured over time. If the watch escapement does not run after everyone Interruption immediately, the errors would be considerable because of the accumulation There are deviations from the actual operating time.

The conditions placed on the clock escapement of an operating time counter are therefore considerably more difficult than with a watch with a continuously wound Spring and continuously working watch escapement.

So far it was necessary not only very carefully for the stated purpose To use custom-made watch escapements, but also in painstaking fine-tuning work to match the engine and the spring strength.

The present invention now provides a means by which also in the usual watch escapements their safe start from the rest position at any point in time can be reached with considerable ease of assembly work.

According to the invention, the escape wheel is influenced by a spring in such a way that that it is in one position after the clock spring has expired or after it has been switched off stops, in which the controlling organ of the unrest on the inclined surface of a tooth of the escape wheel rests. The tension of the spring is measured in such a way that that when the clock spring is active, the jerks, progress of the escape wheel and the The period of oscillation of the restlessness is practically not affected.

The end positions of the escape wheel reached in the subject of the invention are those from which the escapement can easily be swung out, in contrast to the other possible end positions of the escapement wheel, which cause unrest to settle and escape wheel can result.

The embodiment shown in a simplified manner is a Cylindrical gear used as a basis.

Fig.I shows a plan view of the escapement; Fig.ll and III each give a section of the escape wheel in a special position relative to the cylinder again.

It denotes i the unrest, 2 that which is firmly connected with the unrest, cut cylinder, 3 the cylinder gear with the teeth 4. the balance spring is not shown for the sake of clarity.

In FIG. I there is a rest position of the cylinder wheel 3 relative to the cylinder 2 held in the cylinder entrance lip 2a on the lift surface of a tooth 4 sits up. Now the clock spring begins to work. The one that acts as an inclined plane The lifting surface of the tooth 4 presses on the input lip 2a and directs the torsional vibration of cylinder 2 with the balance i to the right. If the relevant tooth 4 of the inside of the cylinder 2 is intercepted, so there is already a sufficient swing amplitude the unrest i reached and the continuation secured. A rest position of the cylinder wheel 3 according to FIG. I is a preferred position insofar as the escapement is off the calm gets going easily. On the other hand, the position according to FIG. II is different. Remain the escape wheel 3 stand so that the right tooth tip of 4 is just the entrance lip 2a touches, there is always the risk of sticking because the slope of the Elevation surface is unable to act and the edges of tooth 4 and the lip 2a caught together. The same applies to a rest position according to FIG. III. here is the tooth 4 within the cylinder 2, and the right tooth tip edges with the Exit lip 2U. So there are primarily the rest positions according to Fig. II and III to avoid, or, to put it positively, the escape wheel 3 should only be used in such Positions come to rest that the effective lifting surface of the tooth 4 in contact with the inlet or outlet lip 2a or 2U of the cylinder 2 remains. In simple This is achieved by a spring 5 which gently brushes the escape wheel. The strength of the spring 5 can be so dimensioned that by touching the escape wheel 3 is not inhibited in its jerky rotation when the force of the driving force Clock spring acts on the escapement; furthermore, the spring5, which is expediently attached to its Contact point receives a bend 5a and is adjustable at 6, to the escape wheel 3 such a position that this act as soon as the clock spring has ceased to come to rest in the position similar to FIG. The living one The force of the unrest i is then so low when the clock spring force is switched off that the Contacting tooth of the escape wheel 3 adheres to the spring 5. Here is located the effective lip of the cylinder 2 is just on the lifting surface of a tooth 4. In such a position the escapement will certainly run out of rest position on again when the force of the clock spring starts again.

Not only with cylinder gears, but also with other watch gears, like Anker- and Roßkopfgang, the resting position, which is favorable in the sense of the above, can be used the controlled escape wheel to the controlling organ (anchor) with the same means can be achieved.

Claims (2)

PATL.N'lANSl'1tÜC111 :: i. Clock escapement, especially for operating time counters, in which the clock spring only acts on the Clockwork acts, characterized in that the escape wheel (3) by a spring (5) is influenced in such a way that it occurs after the clock spring has expired or after it has been switched off stops in a position in which the controlling organ (2) of the unrest (i) opens the inclined surface of a tooth (4) of the escape wheel rests. 2. Clock escapement after Claim i, characterized in that the tension of the spring (5) is dimensioned in this way is that when the clock spring is active, the jerky progression of the escape wheel (3) and the period of oscillation of the unrest (i) is practically not affected.