DE1673663C3 - Calendar clock - Google Patents

Description

be (4) and attached to the adjusting lever (7) from Fig. 1. .

Pin 6) into an elongated hole in the drive wheel (3) The calendar mechanism shown has em

protrudes and that when the shift lever (12) falls, hour wheel 1, which is driven by the clock's Antnebswerk

through this the cam (4) and thus io is driven. A drive wheel * ν, a 01 f-

the adjustment lever (7) are rotatable. voltage 5 and rotates over em once every 24 hours

2. Calendar clock according to claim 1, characterized in that intermediate gear 2. A cam disk 4 is freely identifiable · that one adjusting finger (C: F) as the drive wheel 3 is attached and pivotable at opposite ends on the same stationary bearing pin of the adjusting lever (7) has a pin 6 which is arranged around the date ring (16) or a 25 which protrudes downwards and upwards. Adjust the lower day disk (15). Section of the pin C extends through the opening a

3. Calendar watch according to claim 1 or 2, da- the drive wheel 3, while the upper portion of the characterized in that the adjusting finger (C) pin 6 engages a sliding lever 7. The sliding fee the date ring (15) at one end of the at 7 on the cam 4 has a groove 8 in the Adjusting lever (7) is articulated member (10), which 30 is a guide pin 9, which is stationary on a base a FeHer (11) is preloaded. plate is attached, attacks. The sliding coel 7 has

4. Calendar watch according to one of claims 2 ner a finger F, which cingrei- in the Tagsteigrad 14 and 3, thereby gckennreichnc \ that the can in Langs- fen, which runs with a direction of the weekdays of the Verstellheb-.ls (Ί) Füh tag disc 15 is rigidly connected

Approximation slot (8) and the elongated lobe (5) designed in such a way 35 pins 18 to 20 are attached to the sliding lever 7, formed from a wave are that the adjusting fingers (C: F) at the pin 18 as a bearing pin for a date finlang oval tracks (F i g. 1) are performed. gcr 10 is used. The date finger 10 can be attached to the toothing of a datum 16 attack, which the Dntcn a month, and swivels around the pen

40 18 of the sliding lever 7, while a date finger 10

is always driven by a spring 11. In

The invention relates to a calendar clock with a Fig. 1 are only the digits 1 to 4 of the data in the Mo adjustment device for a date ring or the like ent- nat shown, in reality, however, the speaking wears the preamble of claim 1. tumsring the numbers 1 to 31.

In a known adjusting device of this type 45 a contact piece 12 under the date ring 16 rotates

(British patent specification 467 830) strikes the switch counterclockwise by a spring 13th the

lever when falling on a pin 13 on a wheel is located in a recess in the base plate.

with an adjusting finger. It is disadvantageous that the contact piece 12 has a triangular end

viewed that it is an increment by two stages of a part ß, which together with the cam 4

can cause because he works according to the one-stage 50 progress. The drive mechanism according to the

circuit no longer in the ring gear of the date invention also has a pawl 22, whose free

intervenes all around. End at the toothing of the datum line 16 through

In other adjustment devices that suddenly act on a spring 21, and a pawl 24, whose

Lent adjustment of the date ring allow free end on the toothing of the 1 agsteigrads 14

on the other hand, there is the difficulty that the date and 55 attacks by a spring 23. Both pawls 22 and

adjust the day at the same time. In addition, it may have a triangular end portion through which 24

it can happen that in certain positions of the Verstcllein springs 21 or 23 completely with two Zalnicn des

direction a correction of the date or day / date ring or the day climbing wheel is engaged.

show is not possible without further ado. This is how the date ring and the

It is therefore the object of the invention to keep a Kaien- 60 day climbing bike in a correspondingly stable position,

deruhr with an adjusting device of the input- The drive wheel 3, which rotates completely

called type in such a way that on the one hand a hung in 24 hours via the intermediate gear 2

Adjustment by only one step is guaranteed, carries out, drives the cam disk 4, which with

and that, on the other hand, in every position the adjustment cooperates with the contact piece 12 and the spring

device a correction can be carried out. 6 ₅ 13 is continuously driven by the spiral-shaped Bc-

In the case of a calendar clock, this task is tightened to the limitation of the cam disk 4. Since the

initially mentioned type according to the invention by the upper part of the pin 6 of the cam 4 on the sliding

object of claim 1 solved. Advantageous lever 7 engages, the sliding lever 7 along the

A 673

Guide pin Q shifted, and the part r of the Dutumsfingers 10 and the fingers / = ^{1 of} the sliding lever 7 rotate accordingly once in the direction of the arrow for 24 hours. When the cam 4 rotates in the direction of the arrow, the spring 13 is slowly bent by the cam 4, and when the end /} of the bell 12 has reached the end / 1 of the spiral cam 4, the part C of the date finger 10 comes into position D and the finger Γ du »slide lever in position G. The switching ίο piece then works together with the end A of the spiral cam disk 4 and generates a sudden rotation of the cam disk 4. During this rotation of the cam disk 4, the pin 6 is free in the opening 5 of the drive wheel 3 moves.

At the same time, the part C of the finger 10 is in engagement with the teeth of the date ring 16 and thus generates a sudden displacement of this date ring, as a result of which it is moved back from the position D to the position E. At the same time, the finger F of the sliding lever 7 engages in the teeth of the day wheel, which is rigidly connected to the day disk 15, and generates a sudden displacement of the day disk so that it is moved from position G to position / 7 bewS ' Switching the dates and days so suddenly happens. After these PlUUlS changes, both the TeU C of the finger 10 and the finger F of the slide lever between the teeth of the date ring or the tag tag are arranged so that the date ring 16 and the tag disc 15 do not move two teeth can be rotated instead of one tooth.

Since the date hanger 10 is always driven by the spring 11, the date can be corrected at the next point in time without the mechanism being damaged, even if part C of the finger 10 is between the teeth of the date ring 16. Due to the drive mechanism described above, the date and day always jump from one display position m to the next, so that both the day and the date can be read off exactly at any point in time, so that two numbers do not appear at the same time in the dial window of the clock. Furthermore, the date can be corrected by a data setter at any point in time without damaging the mechanism.

For this purpose 2 sheets of drawings

Claims (1)

Developments of the invention are the subject of Claims: ^U SÄ advantages of the invention are included therein SÄ Vri g J. See calendar clock with an adjustment device. that at both ends of such a for a date ring or the like with a 5-lever locking mechanism to advance the gle.chze.t.gen a spring-preloaded gear lever, which is connected to a date ring and a day throttle a worm gear drivable by a drive wheel can be provided, one of which: acts as a cam cam, as well as being springy with a twist of two adjusting feet; "| ™ is due to the drop of the shift lever on the paragraph, so that without damaging the adjustment the cam actuated adjusting member for io tion in every position a correction of the date display the date ring, thereby marked, or the day display can be carried out. net that the VerstellgHed an adjusting lever (7) Based on the drawing, the invention is intended to with a guide slot (8), in which one is explained in more detail in terms of location, fcs> indicates Fixed pin (9) protrudes that the cam (4) Fig. 1 is a plan view of e.n Ausführungsungsbe.sp.el freely rotatable on the journal of the drive 15 according to the invention and ..... . _vv , rads (3) is mounted that a on the cam disk F i g. 2 shows a cross section along the Lime XX