DE1523753A1 - Drive device for a hammer in the lute mechanism of an alarm clock - Google Patents

Description

Patent attorneys ι c ο ο τ c *

DipL-Ing. A. Stengsr I 623753

Dipl-Ing. W. Watzke
Düsseldorf 1

Chailottenstrasse 58

Fabriaue d'Horlogerie Cha. Tissot et FiIs S «A. Le Locle

(Switzerland)

Drive device for a hammer in a bell

Alarm clock

The invention relates to a drive device for a hammer in the bell of an alarm clock with means to transmit impulses to the opposite one Bell arranged hammer to make it vibrate.

The purpose of the invention is a drive device for to create a hammer in the chime of an alarm clock, which device changes the beat rhythm of the hammer can.

The drive device according to the invention is characterized in that the means are designed in such a way that the strength of the impulses during the ringing is changeable.

909838/0652 bathroom original

Wants the strength of the impulses transmitted to the hammer changes, the amplitude of the vibrations of the hammer is variable and it is sufficient to arrange the bell shell in such a way that that the swinging hammer strikes the bell once or twice per swing, with the striking rhythm is suddenly doubled when the oscillation amplitude exceeds a certain value

The subject matter of the invention is explained in more detail below with reference to the accompanying drawings, for example.

Fig. 1 shows part of a work of an alarm clock from the side and in section and

FIG. 2 is a plan view of an organ of the device shown in FIG.

In Fig. 1, a hammer 1 is a ringer mechanism drawn. It is around a shaft 2, the bearing journals 3 in a recess 4 of a work plate 5 of the work to be described is mounted, pivotable. This work is the work of one Alarm clock and intended to do its job properly if the opposed work plate 5 and the Bridge 6 lie in vertical planes. The shaft 2 is located

BAD .ORK3INAL 909838/0552

therefore usually in a horizontal position. The bridge 6 is on the opposite of the recess 4 in the base plate 5 Place with a protruding lug 7 · This lug forms a limit for the axial displacement of the Wave 2. The bell of the bell mechanism is not shown. It is arranged opposite the hammer 1.

A driving pin 8 is fastened to the hammer 1 and cooperates with an armature 9 The latter is arranged between the work plate 5 and the bridge 6 so that it can pivot about a shaft Io The shaft Io is in the work plate 5 and in the extension of the Bearing pin 11 arranged on shaft Io is mounted in a recess 12 of a projection 13 of bridge 6. The armature 9 cooperates in a known manner with an escape wheel 14 which is mounted on a shaft 15. This is fastened in a carrier 16 protruding over the work plate. A drive 17 is mounted coaxially on the wheel 14. The drive 17 has a bearing journal 18 in the extension of the shaft 15. The latter is mounted in a recess 19 of the projection 2o, which is rounded with the bridge 6. The protrusion 2o has the shape of a cylinder and is surrounded by a compression spring 21, which the T b i _{r e} 17 presses in its outermost part against the Had 14, wherein

909838/0552 _BAD original

supported on a shoulder 22 of the projection 2o · The drive 17 and the wheel 14 are provided with a Breguet toothing 23 on the mutually facing sides, so that the drive 17 can rotate in one direction with respect to the wheel 14 and that, when rotating in the other direction, the wheel 14 moved along. Protruding essays 24 »the ringW the shoot distributed, on which Had 14 are attached, allow the latter to block by means of a mechanism that is not described in detail and not shown.

When the bell is switched on, the wheel 14 is driven by the drive 17, which in turn has a toothing a wheel 25 is in engagement. The wheel 25 is through a Shaft 26 mounted between the base plate 5 and the bridge 6 · A spring core 27 is with the inner end of a bell spring 28 connected. The outer end of this spring is on one side. wall 29 of the projection 2o attached. That part of the wave 26, which pierces the bridge 6, is connected to a winding device (not shown) 25 drives in the direction in which the ringer tension spring 28 is drawn, the wheel 14 is locked and the drive 17 is rotate with respect to the wheel 14, skipping the Breguet teeth 23 · On the other hand, when the winding device unlocked relative to the shaft 26 and the wheel 14 is still locked, the ringer tension spring 28 remain wound up to the moment in which the wheel 14 is released. Then

909838/0552

- 5 the bath 14, the anchor 9 and the hammer 1 are driven

The had 25 is shown in FIG. 2 in a top view. Four toothed sectors 3o, 31t 32 and 33 are visible on its circumference. Sectors 31 * and 33 are almost diametrically opposed arranged one another and have the same arc length · Between the sectors 31 and 33 are the sectors 3o and 32 arranged. They do not completely fill the spaces between the first-mentioned sectors. Sectors 3o and

32 are arranged below the sectors 31 and 33 and the The teeth of sectors 31 and 33 have a larger diameter than those of sectors 3o and 32. The teeth 3 © -

33 can have two toothings 35 and 34 of the drive 17 cooperate · From the Pig. 1 it can be seen that the upper toothing 34 of the drive 17 with the sectors 31 and 33 and the lower 35 can interact with sectors 3o and 32. the The diameter of the two different toothings 34 and 35 of the drive 17 are corresponding to the diameter of the sectors 30/32 and 31/33 elected. The teeth 34 and 35 have the same number of teeth. Their modals are therefore different. Veiter, the module corresponds to the gears 3o and 32 that of the toothing 35 and the module of the toothing 31 and 33 that of the toothing 34. In the course of a

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complete revolution of the wheel 25, the drive 17 is alternating from sectors 3o, 31 Ü2 and 33 via the gearing 35 and subsequently over the teeth 34 9 alternately driven. The armature 9 regulates the speed of the wheel 14 and thus also that of the drive 16 to one more or less constant value. The wheel 25 rotates under the influence of the ringer tension spring 28 at a variable speed. It follows from this that the armature 9 has more or less energy, depending on which sector it is with the drive 17 is engaged, transfers to the hammer 1. The transferred Energy is greater when the sectors 3o or 32 in engagement with the drive 17 3ind and smaller when the sectors 31 or 33 are in engagement with this drive. The size of this Energy is determined by the torque, which is delivered by the ringing tension spring 28 and the angle of rotation of the Wheel 25 between each impact of the anchor 9, in other words, this angle of rotation is greater when the transmission ratio the toothing is smaller. If the energy transferred to the anchor is greater, it is to the hammer transmitted impulse stronger and therefore the amplitude of its stimulated oscillation larger. The bell bowl is arranged in such a way that the hammer strikes you in both end positions when it is strongly excited, but only strikes on one side,

BATH ORIGINAL 909838/0552

if it is powered with less energy. If the sectors 3o or 32 are in engagement with the toothing 35, the sequence of bells per unit of time is twice as great as when the sectors 31 or 32 are in engagement with the toothing. DAe change in the impact sequence is at most 2 ί 1 because the hammer when it stops at both end positions against the fflockenschale a little reciprocating H _e rbewegungen of inkers influenced "

The Ead 25 is designed to work with an alarm clock mechanism. »Us determines at which the ringing takes place in two separate phases. The duration between phases can range can be regulated from a few minutes to a few hours. Each ringing phase begins with one revolution of the wheel 25 when the The beginning of the sector 31 or the beginning of the sector 33 is currently at the rub 17. Each ringing phase begins with one slow beat sequence, which can then increase. It should be noted that the toothing of the wheel 25 also applies to others Way can be run. It does not necessarily need a bath with a sector of large diameter and with one Sector to be of a small diameter.

As can be seen from FIG. 1, the wheel 25 and also the drive 17 are made of plastic. Even if the gearing

909838/0552

34 and 35 have the same number of teeth, the production of such a drive is nevertheless not very difficult tied together. The same also applies to the teeth of the wheel 25, because the teeth do not overlap at any point.

This wheel and the drive with the toothing can be created by means of casting molds, which once with the desired accuracy can be produced in a rational manner.

In other embodiments, other means for changing the oscillation amplitude of the hammer and thus for Changing the beat rhythm can be used.

909838/0552

Claims (6)

Patent claims: 1.) Drive device for a hammer in the bell of an alarm clock with means for transmitting pulses to the arranged opposite a bell hammer in order to set it in vibration, characterized in that the Means are designed such that the strength of the pulses is variable during the ringing. 2 ·) Device according to claim 1 with an at least approximately constant torque and the energy for the Actuation of the hammer supplying motor organ, characterized in that the means are a gear, the driving force of which ¥ all is under the action of torque, contains, the driven shaft is controlled so that it is with a approximately constant speed rotates, and that the transmission ratio this transmission is variable. 3 ·) Device according to claim 2, characterized in that the transmission has a drive with two arranged one above the other and gears having different diameters and a wheel with toothed sectors, whose gears are distributed over the whole circumference, have different diameters, contains 909838/0552 ~ Io - and that these sectors intervene alternately in the Toothings of the drive are arranged accordingly. 4 ·) Device according to claim 3 »characterized in that that the wheel has two toothed sectors interacting with the first toothing of the drive and two with the second Interlocking of the drive has interacting toothed sectors, these sectors successively and alternately, one with the first toothing and the other with the second toothing of the drive in the course of a full Engage one revolution of the wheel. 5.) Device according to claim 3, characterized in that the drive with an escape wheel, which with a vibrating displaceable armature cooperates, is rotatably connected, the speed of rotation of the driven and the wave transmitting impulses to the hammer is regulated by the armature « 6.) Device according to claim 5, characterized by a one-way clutch between the escape wheel and the drive, 7.) Device according to claim 1, characterized in that that the bell is arranged so that the hammer this 909838/0552 - ii - Strikes once or twice in the course of a complete oscillation excited by the device 909838/0552