DE272076C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- M 272076 CLASS 83 b. GROUP

THOMAS RUSHTON in LONDON.

Electromagnetic winding device for clocks.

Patented in the German Empire on June 14, 1912.

For this registration, the examination according to the Union Treaty of

March 20, 1883

Recognized on December 14, 1900 on the basis of registration in Great Britain on June 21, 1911.

the priority

There are electric winding devices for watches are known in which the pawl as Contact element is formed which causes the interruption of the current. It is also known to use the ratchets and the locking latches to move the contact parts and to achieve a blank rubbing of the same by relative displacements of the contact parts and thereby to bring about a safe contact.

The present invention relates to such a mounting device, which is quick and precise Interrupting the current at a certain point in time and closing the current just as quickly enables and thereby an absolutely safe functioning of the device with the greatest possible protection of the contacts can achieve.

The novelty consists in the fact that the one contact piece that falls on it a pawl closes the current when the clockwork continues through the same Ratchet is thrown back on a ratchet tooth; this ratchet prevents the contact piece, to fall down together with the pawl when it falls into the next tooth gap.

The invention also consists in a special elastic design of the contact arm and the ratchet wheel into which it falls, as well as in another embodiment 40

45

shape of the mounting device. Some embodiments of the invention are on the drawing shown in four figures.

Fig. Ι and 2 are front and side views of a clockwork with spring drive according to the present Invention, wherein in Fig. 1 one of the base plates is removed.

Fig. 3 shows another embodiment of a detail in three layers.

Fig. 4 shows the arrangement according to the present invention in a clock with weight drive.

In Fig. 1 and 2, the clock spring is arranged in a drum 1 in a known manner. A wheel 2 is connected to the drum, which is expediently designed as a ratchet wheel, although it is not drawn so, and with which it rotates loosely on the shaft 3, with which is connected to the first wheel 4 of the striking mechanism. The spring in the drum is in a known manner with one end to the drum and the other end to the Shaft 3 attached. The drive wheel 5, shaft 6 and wheel 7 are the next Links of the work that ends in a shaft 8 of a suitable escapement, which by a Spindle, a restlessness 0. Like. Is regulated.

The wheel 2 is rotated by a pawl 9 which is seated on a lever 10. This is loosely mounted on the shaft 3 and at one end as the armature of the electromagnetic

55

60

th Ii, while the other end is designed as a counterweight that holds the armature withdraws from the magnet again. If necessary, a spring can also be used for this purpose will. The going back of the wheel 2 is prevented by a locking pawl that on the base plate 3 of the clockwork frame sits. The frame is made in a known manner two plates 13, 14 formed by bolts 15 are connected. A spring 16 presses the pawl 12 against the wheel 2. This spring is formed in the embodiment as one of the elements of the contact that the Circuit of the electromagnet 11 controls, and therefore from the pawl 12 through an insulation layer 17 separated; it is separated from the watch case by a second insulating layer 18 isolated. The spring expediently has a platinum layer at the contact point. Naturally the handle itself can also be used for the same purpose.

The second contact element consists of an arm 19 which is rotatable by a on the frame mounted spindle 20 passes through it. This spindle carries the second arm 21, which consists of a flat, standing in a vertical plane spring, so that it is laterally elastic. The bent end of this arm is pressed against a grooved disk ″ 23 by a spring 28 pressed, which is firmly connected to the wheel 7 and rotates with it. On the outer On the surface of this disc there are a number of long ratchet teeth 24 that attach to the grooves to end. The spindle 20 also forms a stop for the armature 10 and is for Provide soundproofing with a cushion.

The electrical circuit of the magnet

goes from a battery not shown

o. The like. Through the conductor 25, the turns of the magnet to the watch frame at 26, from there through the spindle 20, the arm ig, the spring 16 to the conductor 27, which is to the other pole the power source leads.

The mode of operation of the device is as follows:

As the disc 23 rotates, one of the teeth 24 gradually pushes the end 22 of the arm 21 outward until there is a slot under the arm. At this moment the arm snaps under the action of the spring 28 with its end 22 in the slot. This rotates the spindle 20 and brings the arm 19 into contact with the spring 16. As a result, the circuit of the electromagnet is closed and the armature 10 is attracted. The resulting movement of the pawl 9 rotates the wheel 2 by one tooth. As a result, the pawl 12 is raised against the action of the spring 16 and raises the arm 19 and thus the arm 21. The end 22 of this arm goes up, its beveled upper edge allowing. that it is pressed to the side when passing the slot of the disc 23. When the slot has passed, the arm jumps to the side (to the left in FIG. 2) so that its end rests on the surface of the next tooth 24. Therefore, when the pawl 12 falls again between the next pair of teeth at the end of the movement of the wheel 2, the arm 19 does not follow this movement, but is held by the engagement of the arm 21 in the toothed disk 23. This causes the spring in the drum ι slightly wound so that the clock can continue to run. The end 22 of the arm 21 then falls off the tooth 24 and is gradually pushed outwardly by the next tooth as described above.

Naturally, the space between two slots in the disk 23 must be one Tooth of the wheel 2 correspond. It is not necessary that the disk 23 on the wheel 7 sits; it can also sit on another element of the work, provided that the tooth pitch is such that the space between two slots corresponds to the drive path, which is caused by each stroke of the pawl 9.

The device according to FIG. 3 shows another embodiment of the disc 23. You consists of a wheel 29 with slots 30 cut into the periphery. The arm 31, which corresponds to the resilient arm 21, carries an articulated one at its end Finger 32 which is pressed against a stop 34 by a spring 33. if the wheel 29 is in motion, the finger 32 is due to the friction in the direction of the Movement against the action of the spring 33 taken along, as can be seen in Fig. 3 below is. When you reach a slot, your finger snaps into place. As stated above, it is lifted almost immediately by lifting the pawl and then, since it is no longer exposed to friction, afterwards jump to the left, as shown in Fig. 3 right above, and then go back to the Place the circumference of the wheel. The spring action prevents it from being back through the The slot falls when the pawl 12 engages the teeth of the wheel 2 again.

In the device according to FIG. 4, 35 is the drive weight, the arm of which is loosely on the drive spindle 36 seated. The ratchet wheel 37, which is firmly seated on this spindle, corresponds to the wheel 2 in the device with a spring drive. With it a pawl 38 is engaged, which is hingedly attached to the arm and through a spring is pressed against the ratchet wheel. As above, this latch is insulated and suitable with a lever 39 in contact too

come, the end of which is engaged with a device as described above which it is normally kept out of contact with the latch. If it falls, the Circuit closed, and this results in the lifting of the weight 35 by an electromagnet 40, the anchor of which forms the arm that carries the weight. During this movement, the pawl is pushed through the teeth over the to it goes over, lifted up and pushes the lever 39 back, so that this movement lifts the lever accordingly from its base.

Claims (3)

Patent Claims: i. Electromagnetic winding device for watches, in which a pawl is used as the one contact element, and ao in which a relative movement takes place between the contact elements during their contact, characterized in that the one contact element (19, 21), which by falling onto one in the Drive wheel (2) of the clock mechanism engaging pawl (12) closes the current, if this wheel (2) is rotated further by the same pawl (12) it is lifted back onto a specially shaped double ratchet tooth (23) of a wheel (7) rotated by the running engine it prevents the pawl (12) from falling back into the tooth gap. 2. Execution of the mounting device according to claim 1, characterized in that that with the contact arm (19) a laterally elastic arm (21) is connected, which on a grooved disc (23) rests, which bend the arm (21) laterally through teeth (24) before it snaps into a groove. 3. Modification of the mounting device according to claim 1 and 2, characterized in that that an arm (31) connected to the contact member (19) is a spring element (32, 33) which is bent in the plane of the single-groove disc (29) by its friction with the disc. 1 sheet of drawings.