DE836472C - Gear regulator for clocks or the like with a drive that is periodically locked in the gear regulator cycle - Google Patents

Description

Rate regulator for watches or the like with periodically blocked in the rate regulator cycle Drive The regulators of clocks or the like. Have a vibration organ that periodically locks a drive and releases it again for a specific step in between. The released running gear part gives the vibrating element an impulse and thus maintains its oscillation amplitude.

The task of the invention is to create the vibration organ of the speed regulator largely to relieve the locking work, mainly for the purpose of also drives with a relatively large driving force, e.g. B. with an electric motor drive to be able to regulate a relatively small regulator. Locks according to the invention the drive itself and the The vibration organ of the gear regulator only triggers the opening of the locking mechanism.

The invention is based on the example shown in the drawing explained in more detail. For the sake of simplicity, a 'pendulum' is used here as the oscillating organ used. But it is not difficult to replace the pendulum with a balance wheel. A pendulum i swings around its bearing 2. It has a release lug 3, a sliding track 4 with a slightly receding extension 5. In the way of the nose 3 protrudes an arm 6 of a three-armed lever 7 with a locking finger 8 and a control arm 9. The locking finger 8 protrudes in the way of a flattened bolt io on a loose on a shaft i i mounted lever 12, which a spring 13 against a stop 14 seeks to urge a part 15 firmly seated on the shaft i i. A finger 16 of the lever 12 protrudes into a slot 17 of one mounted at 18 on the part 15 Angle lever i9 with a pawl 2o that works with a fixed stop 21. Furthermore, a cam disk 22, which is connected to the control arm, is firmly seated on the shaft i i 9 cooperates. the Grinding surface 4 corresponds approximately to the projection the path of the finger io to a swinging with the pendulum i with the nominal amplitude Level. The shaft i i is driven by an electric motor or the like, with or without a back gear. driven with relatively great force. Layman speed of the engine is set so ', that the wave i i during a full oscillation of the pendulum i at least one full Rotation makes.

The arrangement works as follows: Assuming that the pendulum swings from the position shown in the direction of the arrow to that indicated by the straight line \ " Zero position back, then the shaft i i is initially secured against rotation, since the The pawl 2o hooks onto the stop 21 and in this locking position by means of the parts i9, 17, 16, 12, io, 8 is held against the force of the spring 13. As soon the pendulum now swings, its nose 3 hits the arm 6 and moves the arm 8 out of the way of the finger in the direction of the arrow io. Now the spring 13 can contract, pivots the lever 12 in the direction of the arrow. As a result, the lever i9 is pivoted in the direction of the arrow and thus the lock at 20, 21 disengaged. Now the wave i i, the is driven clockwise, keep turning. Just before they get a full Rotation, the pendulum i is after a deflection to the right Page approximately in the position shown, but with the opposite direction of movement swung back. The cam 22 now becomes the control arm through the cam 9 swung back in the direction of the arrow into the position shown and thereby the arm 8 for a new locking of the finger io provided. With further rotation of the shaft i i the finger io hits the arm 8 and is thereby at a further rotation prevented, while the shaft i i continues with the part 15 a little further. the Levers 12 and 18 are thereby contrary to the direction of the arrows in the Pivoted position and as soon as the pawl 2o reaches the stop 21, is the shaft i i locked again against further rotation. Meanwhile the pendulum has its Left swing ends and returns in the direction of the arrow. It moves the Arm 6 out again and the game starts all over again.

Should meanwhile the speed of the pendulum i decreased like this have that the target amplitude is not reached, then hits after unlatching of the finger io this on the sliding surface .1 and gives the pendulum i a stronger one Impulse, the smaller its actual amplitude is compared to the nominal amplitude. Swings but the pendulum i with nominal amplitude, then it receives no momentum, because according to the assumption the grinding surface 4 the projection of the path of the finger io on a target amplitude is a plane swinging with the pendulum.

The extension 5 of the pendulum is used when starting the clock The pendulum swings out to the nominal amplitude under the influence of the finger. The extension 5 is made so long that only when it is reached or exceeded the target amplitude of the fingers io can wander past it without touching it.

The disengagement of the lever 7 through the nose 3 of the pendulum requires even with a relatively large force acting on the shaft i i only a small bump, because .the shaft i i is held in place by the pawl 20 and due to the large leverage ratio of levers 18 and 12 only one Fraction of the pawl pressure is transferred to the finger io. May be recommended it is, the part 3 or 6 in: the not decisive for the disengagement of the arm 8 Direction so that the pendulum with nose 3 does not fall on the in the drawing on the right side of part 6 can hit hard and thereby the transmission messes up.

Basically, the shown gear works so that the drive locks itself after covering a certain distance and a tensioning mechanism (Spring 13) charges for the opening of the locking mechanism, and that this tensioning mechanism through the vibrating organ is only triggered. This basic idea, e can be found in the most diverse Way to perform constructively.

The invention offers the advantage that the rate regulator of the clock is largely is relieved of the locking work that as a result, a powerful drive for. The drive Drive can be used '., From which a relatively; high mechanical Power may be diverted, such as with time switches, which are proportionate have to overcome high switching resistances. But even if the drive is not a special one Has large driving force, the invention has the advantage -that because of the extensive Relief of the vibration organ the accuracy of the clock is increased. Another The advantage of the invention is that the pendulum is always kept at the target amplitude which also increases the accuracy of the watch.

Claims (2)

PATENT CLAIMS: i. Gear regulator for clocks or the like with a drive that is periodically locked in the rate regulator cycle, characterized in that the drive (parts 6 to 12) locks itself (by means of parts 20, 21) and the oscillating element (i ) of the gear regulator only triggers the opening of the locking mechanism (20, 21, by means of parts 3, 6). 2. Gear regulator according to claim i, characterized in that the drive not only itself locks, but also its energy store (spring 13) for opening the locking mechanism (2r, 20) charges and .the vibration element (i) only discharges the energy storage device (13 means that triggers parts 3, 6).