DE26558C - Electric pendulum clock with striking mechanism - Google Patents

Description

IMPERIAL

PATENT OFFICE

CLASS 83: Clocks.

The present invention relates to a pendulum clock whose walking and striking mechanism is through an electric current is kept going.

Illustrated on the accompanying drawing:

Fig. Ι the striking mechanism,

Fig. 2 the inner gear train,

3 shows the outer gear train located on the front housing plate b,

4 shows the entire gear train in side view,

Fig. 5 shows the electromagnet.

On the axis of the ground wheel A , the minute wheel c is attached in front of the housing plate b , which engages in the change wheel d; on the latter axis sits the seven-train e, with which the hour wheel f is in engagement. On the Bodenradachse the driving and indexing is further g loosely rotatably, which is provided h with a cotter, the i stöfst against an inserted through the sleeve of the bottom wheel A and its axis of rotation pin, drives the ground wheel during its rotation, and thereby also on The minute wheel c on the same axis turns.

The escapement and the regulating device for the movement are set up just like the ordinary pendulum clocks.

The drive wheel k of the striking mechanism engages a figure-eight drive, on the axis of which the lever pin wheel / with the two lever pins P and P and the locking mechanism u is fastened in the usual way. The percussion mechanism also contains the trap v, which sits on the same axis with the angle hook χ , also the run-up wheel n, vestibule, lock wheel s, hammer with lever arm m and the device with the two lever arms 16 and 18 that can be rotated about axis 17 however, the axis of the drive wheel is extended through the housing on both sides. One end of a spiral spring ο is attached to the front extension. This spring is kept tensioned by five pins q, which are inserted laterally on the winding wheel / (96 teeth), which sits loosely on the axle extension and engages with minute wheel c , and is attached to one of these pins at the other end. The rear extension of the drive wheel axle carries a small gear wheel r (20 teeth), which sets the lock wheel s (8o teeth) in rotation while it is being hit.

The walking mechanism is driven by the weight 1, FIG. 2, which is attached to the longer end of a two-armed lever y which can be rotated about D and is provided at the shorter end with the armature Z of an electromagnet. The pawl 2 the lever engages the ratchet teeth of said drive wheel, and a g is urged by a spring 4 resistant to the ratchet g. Furthermore, on this lever arm there is also an angular metal piece 3 which can be set higher or lower at one end and which protrudes with one leg over the lever arm. Opposite this leg is the contact point of a leaf spring 9, which is insulated and fastened in the base plate 5 of the housing and is provided with a clamping screw 14 _{under T half of this.} The middle part of the contact spring 9 is connected to a lever arm 11 which is insulated on the axis 19. on

On the same axis of rotation 19 there is also a second, pawl-shaped lever 13 which engages the teeth of the drive wheel g , and the clamping screw 15 is also insulated and inserted into the base plate 5 near the electromagnet 6 attached to the watch case. One pole of the electromagnet is connected to the conducting clockwork itself by means of the clamping screw 7, the other by means of the clamping screw 8 to the insulated wire and further to the battery E, which is switched on between 14 and 15.

The mechanism of operation is as follows:

The weight 1 on the lever y presses the pawl 2 on the wheel g and rotates the same in the direction of the arrow, Fig. 2, the driver pin h hits the rod i and as a result the ground wheel A, its axis and thus the minute wheel c rotated in the same sense. From the latter wheel rotation is transmitted through the countershaft de to the hour wheel f through the gear ratios already mentioned above.

The regulation of the rate of the clock is done by the pendulum B, escapement, etc., and the transmission of the ratchet wheel and center wheel to the ground wheel is, as usual, such that the ground wheel turns once an hour.

It can now be seen from Fig. 2 that the pawl 2 and the lever arm y loaded with the weight 1 sink lower and lower to the same degree as the inhibition allows the ground wheel A and thus also the drive wheel g to rotate. During the rotation of the wheel g , the lever pawl 13 is gradually pushed to the left by the height of the tooth, as a result of which the lever 11 rotates to the right and bends the spring 9 to the same side, so that the end of the same moves away from the contact arm of the angle 3. However, as soon as the relevant tooth of the wheel g has passed the tip of the pawl 13, the latter falls immediately behind the next tooth as a result of the tension of the leaf spring 9; the spring 9 strikes with its upper end against the contact arm of the angle 3 and thereby closes the current from the battery E.

The circuit is as follows:

Battery E, lead wire, terminal 15, terminal 8, turns of the electromagnet, terminal 7, watch case to lever y, angle 3, contact, leaf spring 9, terminal 14, lead wire, battery E.

As already mentioned, the left arm of the lever y, FIG. 2, sinks a corresponding distance downwards during the rotation of the drive wheel g about a tooth; the right arm of the lever y with the armature Z goes up as a result. As soon as the current on the contact arm of the angle 3 is closed, the electromagnet 6 comes into operation, attracts the armature Z , so lifts the left lever arm with the weight back into the original position and at the same time moves the pawl 2 by one tooth Drive wheel g further. The position of the contact arm of the angle 3 to the leaf spring 9 is now determined in such a way that immediately after the lifting of the left lever arm, the contact is lifted again and the current is interrupted. The electromagnet therefore momentarily loses its force of attraction again and the weight 1 comes into its own again through the pawl 2. This game is repeated every time a tooth of the drive wheel g passes the pawl 13.

Since the drive wheel and the ground wheel turn around its axis once every hour rotates and is provided with 60 ratchet teeth, so there is contact closure and lifting of the weight respectively The pawl 2 is always switched on again after a minute has elapsed.

The connection of the movement with the striking mechanism is conveyed by the lever 16, FIG. 3, which is lifted by one or more lifting nails attached to the minute wheel C and each full or half an hour etc. is suddenly dropped, causing the hook χ , Fig. 1, and the trap ν, Fig. 2, so that the spiral 0, Fig. 3, can act on the gear train of the striking mechanism, which functions in the usual way. The 96-toothed wheel p, to which one end of the spiral 0 is attached, meshes with the minute wheel c . The latter has 32 teeth and rotates once every hour on its axis. The winding wheel p thus makes one revolution in 3 hours; it therefore tensions the spiral spring 0 by four turns within 12 hours. Exactly as much is unwound from the spiral by the striking mechanism in the same period of time, because the gear ratio from the key wheel s , which turns once every 12 hours, to the wheel r, on whose axis the other end of the spiral is attached, is four times as high, and that The wheel r turns in the opposite direction to the winding wheel /.

The tension of the spiral 0, that is, the driving force for the striking mechanism, is thus also maintained by the clock itself, so that the rate of the entire clockwork is completely automatic; does not apply and only the filling of the battery has to be renewed from time to time. It goes without saying that several clocks can be operated from one battery in the manner described.

Claims (1)

Godfather τ-An Proverbs: In pendulum clocks the arrangement of an electromagnet 6, the associated armature z, the lever y with weight ι and contact arm 3 in "connection with the contact spring 9, the levers 11 and 13 and the clamping screws 14 and 15 isolated from the clock case, for the purpose of Clockwork itself to close an electric current in certain periods of time, to excite the electromagnet and immediately afterwards to interrupt the current again.
In pendulum clocks with electrical driving force, the arrangement of a ratchet wheel g, which is rotated by the pawl 2 loaded with the weight 1, taking the ground wheel A with it and at the same time imparting a periodic pendulum movement to a lever system 13, 11 rotatable about the axis 19, so that between the spring 9 and angled arm 3, a periodic electrical contact is established and, as a result, the pawl 2 is indexed each time by one tooth on the drive wheel g . With pendulum clocks the arrangement of a winding wheel j) in connection with a spiral spring driving the striking mechanism ο such that the winding mechanism of the clock by means of this winding wheel / spiral winds up exactly as much as it is unwound by the action of the striking mechanism. 1 sheet of drawings.