DE1209510B - Self-winding clock - Google Patents

Description

Clock with automatic winding There are already clocks with automatic winding Elevator by a vibrating mass with an eccentrically arranged pivot axis known, which a wheel with wolf teeth over two arranged near the pivot axis Drives pawls, the training being made so that the movement of the Ground in a sense one of the pawls advances and drives the wheel while the other springs back on the wheel while reversing the movement of the Ground the pawls reversing their roles. With the known clocks of this type mostly due to the low force exerted, a coaster between the wheel with wolf teeth and 'arranged the barrel, which has the following disadvantages: a) The space requirement the mechanism is very large because the reduction gear is in several planes contains horizontal wheels, which excludes the production of very flat clocks; b) the energetic efficiency is due to the numerous intermediate gears and transformations movement and inevitable friction are low; c) the reduction gear must have a large reduction ratio so that that required for the elevator The number of oscillations of the mass is often very large.

There are also versions known in which the elevator only in a direction of movement of the oscillating mass takes place, the attached to this The pawl works on a wheel with wolf teeth, which is coaxial with the barrel arranged and fixed without the interposition of a reduction gear with this connected is.

In all of these known designs, the pawls act simply as thrust pads. In contrast, the embodiment according to the invention is characterized in that that also a coaxial with the barrel and rotatably connected to this Wheel with wolf teeth is used, but in such a way that the pawls are designed and are arranged so that each as it moves on this wheel like a toggle lever is working.

This training is due to the omission of a reduction gear the energy efficiency is increased, and the structure is simplified, so that it is suitable for the production of particularly flat clocks, while at the same time the Cost price is lowered as a result of the reduction in the required parts.

Furthermore, the toggle effect achieved by the pawls transmitted force increases while moving the free end of the pawls is reduced, whereby the desired reduction directly through the pawls is achieved, which is the omission of a reduction gear between the wheel with wolf teeth and the barrel and still the achievement of favorable working conditions enables.

The invention is described below by way of example with reference to the drawing explained.

F i g. Figure 1 is a schematic plan view of the movement, with the case and the parts of the mechanism not necessary for an understanding of the invention are omitted; F i g. 2 is a partial view of FIG. 1 on a larger scale; F i g. 3 and 4 are diagrams for explaining the operation of the in FIG. 1 and 2 shown mechanism; F i g. 5 is a longitudinal section the line 5-5 of FIG. 2 on a smaller scale.

The clock shown has a round movement 26 with a barrel 2. The movement's winding mechanism includes an annular ring surrounding movement 26 vibrating mass 22, which is attached to a tab of the frame of the work at an in near the circumference of the work is pivotable on an axis 25.

With the barrel 2 a coaxial wheel 23 with wolf teeth is fixedly connected. The common axis is denoted by 24 (FIG. 2). The wheel 23 is driven by two pawls 20 and 21 pivotable on the oscillating mass 22 .

As shown in FIG. 2, the axis 25 of the oscillating mass 22 lies in the vicinity of a line ZZ passing through the center of the round movement 26 and the center of the barrel axis 24.

The two pawls 20 and 21 are approximately parallel, and their pivot points 27 and 28 on the mass are both in a part 29 of the same, which lies within an arc 30 , the center of which is the center of the work, and which through the axis 25 of the mass goes.

The pawls 20 and 21 are held in engagement with the wheel 23 by springs (not shown), and the mass 22 is designed so that it can pivot about the axis 25 by an angle "Y".

When the mass 22 moves in the direction of the arrow X, the pivot pin 27 of the pawl 20 approaches the straight line WW passing through the axis of rotation 25 of the mass and through the point of application of the pawl, so that the pawl containing the pawl in FIG. 3 shown triangle due to the transition of the pivot pin of the pawl from 27 to 27 'flattened. The free end of the pawl then advances and the pawl drives wheel 23 in the direction of arrow "U".

During this movement, the pivot pin 28 of the other pawl 21 passes from 28 to 28 ' (see FIG. 4), so that the pawl jumping over the toothing of the wheel 23 recedes on the latter. When the mass vibrates in the other direction, the roles of the two pawls are reversed and the wheel 23 is driven in the same direction.

From the above it can be seen that the pawls 20 and 21 work like a toggle lever when they are advanced, the components of which (section of the Ground and actual latch) from an already slightly bent mutual position go out to get into an even less twisted mutual situation. Through this the force transmitted by the pawls is increased while the movement of the the free end of the pawls is reduced. In this way, the desired gear reduction is achieved immediately obtained by the pawls, eliminating the need for a reduction gear between the wheel 23 and the barrel 22 allows.

As a result of the elimination of numerous points of friction that can be achieved an increased energetic efficiency can easily be obtained. Furthermore, the space requirement of the mechanism is significantly reduced, especially when the pawls be arranged in a recess of the mass, as shown, what the manufacture allows very flat clocks, at the same time as a result of the reduction in the number of the individual parts, the manufacturing costs can be reduced.

As in Fig. 5, the pivot axis 25 of the mass 22 is formed by an axis 30 which is mounted in ball bearings 31 and 32, the first of which is seated in an attachment 33 of the watch frame and the second in a bridge 34 attached to this attachment. The part 35 of the mass carrying the axis 30 has lateral recesses for the passage 33 and the bridge 34 , while the rest of the mass surrounding the work has a thickness which is approximately equal to that of the work.

The latch mechanism shown has a small footprint and can be carried out so that the vibration of the mass 22 is just an advance of the wheel 23 corresponds to one tooth. In a work with a diameter of about 23 mm has the wheel 23 z. B. a diameter of 9.2 mm and 180 teeth, what a Circumferential step of its teeth of about 0.16 mm.

This drive of the wheel 23 in very small steps allowed on dispensing with a reduction gear and making one much easier flat clock.

The inventive training is also for a non-circular Movement can be used.

Claims (3)

Claims: 1. Clock with automatic winding for an oscillating mass, with an eccentrically arranged pivot axis, which drives a wheel with Wolf's teeth via two pawls arranged in the vicinity of the pivot axis, the design being such that the movement of the mass in one sense one of the pawls advances and drives the wheel, while the other springs back on the wheel, while when the movement of the mass is reversed, the pawls swap their roles, characterized by the use of a wheel with wolf teeth that is coaxial with the barrel and rotatably connected to it, however in such a way that the pawls (20, 21) are designed and arranged so that each works like a toggle lever when it is advanced on this wheel. 2. Clock according to claim 1, characterized in that the pivot axis (25) of the mass (22) is in the vicinity of a line (ZZ) passing through the center of the movement and the axis of the barrel, and. that the pawls (20, 21) are approximately parallel and both are pivotable on a part of the mass which lies within an arc (30) , the center of which is the center of the work, and which goes through the pivot axis (25) of the mass. 3. Clock according to claim 1 and 2, characterized in that the pawls at least for the most part are arranged in a recess in the mass (22). Into consideration Drawn publications: Swiss patent specifications No. 142 790, 271424, 271426; U.S. Patent No. 2,030,980.