DE1906554A1 - Switching calendars, in particular calendar clocks - Google Patents

Description

Switching calendar, in particular calendar clock The invention relates to a Switching calendar, in particular a calendar clock with automatic consideration the length of the month, with two coaxially arranged, rotatable date carriers, of which the first the month data, the second the month names, a switching device, which is operated every 24 hours by a clockwork or the like and the first date carrier rotates by one day, while the latter rotates after one complete cycle rotates the second date carrier by one month and several limit switches, operated by the drive shaft of the first date carrier one after the other at the end of the month with the start switch actuated by the drive shaft of the second date carrier lie in a row and, depending on the position of the second date bearer, months with fewer than 31 days cause the first date carrier to advance.

In a known time switch of this type, the date carriers are designed as large drums and made of electrically non-conductive material. In terms of their scope, they indicate the day digits or the month names or month digits on.

The date carriers are electrically conductive on the end faces Provided contact plates. There are contact pins in a partition between the date carriers arranged, which are in the range of motion of the contact plates and on the one hand a power source and, on the other hand, an electromagnet connected on the switching device for advancing the first date carrier acts. There is also a Maltese cross on the second date carrier with the Nonat indications stored, which also carries contacts, but only once a year, namely take effect in February months.

The current routing is such that the one on the second date carrier with the monthly contacts via a central slip ring are in connection with the electromagnet.

Depending on the position of the second date carrier, however, there is only one siner Contact plates in contact with a contact pin. The arrangement of the contact plates on the second date carrier occurs separately for each month, depending on whether the month Owns 30 or 31 days. The contacts on the Maltese Cross, which has four arms, three of which are equipped with contacts, come to in February months Effect. The sontakes on the second date carrier and on the Maltese cross form the start switch, that come into contact with one of the contact pins at the beginning of each month, whereby this connection is maintained throughout the month.

The contact plates always protrude from the first date carrier a central slip ring connected to the power source. The arrangement of this Contacts is such that at the end of the 28th, 30th and 31st fag with the Kontaktstifteü Come to Bertihrting and then until you switch the first date carrier to the first day of Nonat in connection with the contact pins remains. The contact plates on the first date carrier, together with the contact pins, form limit switches that control the Finally close the circuit to the electromagnet. Depending on the position of the second date carrier then this closing of the circuit takes place on the 28th, 29th, 30th or 31st day.

The main disadvantages of this known switching calendar are the multitude of sliding contacts. It is well known that sliding contacts are prone to failure because of pollution and corrosion.

On high-speed machines, sliding contacts clean themselves.

win switching calendar, however, is not a high-speed machine but rotates jerkily, the contact plates of the first date carrier only once touch the contact pins a month, while those of the second date carrier only touch the pins once come into contact with the contact pins every year or once every 4 years. In In the meantime, the contact plates or contact pins can get dirty or corrode, so that perfect contact is no longer guaranteed and the well-known switching calendar becomes quite prone to failure after some time of use. Furthermore, the contact plates also require a relatively large amount of space, so that the date drums cannot fall below certain minimum dimensions0 The known switching calendar is therefore not suitable as a Uisch switching calendar and Because of its depth, it is also less suitable for installation in walls and the like. As Another disadvantage is to be mentioned that the drive of the first date carrier takes place via an electromagnet. However, such an electromagnet works suddenly, so that precision parts are subjected to strong, jerky loads are exposed and are therefore subject to high levels of wear and tear.

Because of the strong, jerky loads, these precision parts must also be made relatively strong, which in turn has large structural dimensions results.

There is also a calendar watch known, with a band that runs in succession bears the Nonat dates and Nonat names for a whole year. The tape is on one Take-up reel and is wound by this on a take-up reel, this take-up reel is driven by an electric motor. Respectively When the day changes, this electric motor is briefly started and turns the take-up reel by an amount corresponding to a day on the tape The main disadvantage of this calendar clock is that it only runs on 1 year is limited. After a year the tape has to be taken off the take-up reel be rewound onto the supply reel, this rewinding expediently in each case at the Must take place at the end of February. Would this-known calendar watch are used in train stations, public buildings and banks, so 'should each On the same day and at the same hour, interventions in many places on the respective Clocks are made, which is practically impracticable.

However, the rear derailleur, which drives the electric motor, also loads at the end of each day '; briefly starts the movement in considerable Way, since springs are tensioned over a mechanical device during the day, which set a temporary auxiliary clockwork in motion at the end of the day.

The running time of this auxiliary machinery is controlled by a wind vane controller certainly. During the running time of the auxiliary clockwork, the current flow to the electric motor released.- Another disadvantage of this known calendar clock also occurs their size. This is due to the fact that all 365 or 366 days of a year must be recorded and the tape therefore a has considerable length. Even by winding on the take-up and take-off spool, which each have to accommodate the entire length of the tape in the end positions of the tape, there are considerable diameters of the take-up and take-off reels To effect rewinding of the tape after one year, the electric motor must accordingly be large in size. These facts also result in another one relatively large size, which makes the well-known calendar clock unsuitable as a desk calendar power.

The present invention is based on the object of a switching calendar to create the type mentioned at the beginning, which is characterized by high operational reliability and small overall dimensions This is achieved according to the invention by that the switches are designed as microswitches and with the drive shafts Date carrier cam disks are connected, -which interact with the microswitches. The use of microswitches and cam disks increases operational reliability significantly increased and the structural dimensions can be so small held that the new calendar can also be displayed on desks or Like. Is suitable. Microswitches are now available in versions where no corrosion occurs even after long use. The one next to the date carriers Cam disks provided on the drive shafts can be extremely cheap as stamped parts getting produced. Since these parts do not require high precision, the manufacturing cost increases of the entire switching calendar further reduced.

In a further development of the inventive idea, namely the use of microswitches and switching cams can increase operational reliability and service life of the new switching calendar can also be increased in that to drive the drive shaft of the first date carrier, an electric motor and a gear are provided and that two switches in series are provided for switching the first date carrier are, between the contacts of which two parallel lines extend and over Cam disks of the clockwork and of the gearbox connected to the electric motor be switched in such a way that the cam of the clockwork ß at the change of day first changeover switch switches over, the circuit to the motor via the second switchover switch is closed and thus the motor is briefly started until the cam disk of the transmission switches the second changeover switch, then when the clockwork continues to run the first switch returns to its original position and again the The circuit to the motor closes until the second cam disk has fully revolved the second changeover switch returns to its original position. Using a Electric motor in combination with the aforementioned switches and cam disks - effected reliable and, above all, jolt-free operation of the switching calendar, without stressing the parts of the calendar or the upstream clockwork will.

The force to be used by the movement to operate the Nikro switch is extremely low, so that the accuracy of the watch is not affected in any way will.

Further advantages and details of the invention are based on a Execution shown in the drawing in game 'it is explained in more detail below.

They show: FIG. 1 a diagrammatic representation of the new switching calendar in a schematic representation; Fig. 2 shows the associated circuit diagram.

A first cam disk is from a clockwork (not shown) driven so that it rotates once in 24 hours. This cam disc 1, works with a switch A, which is designed as a microswitch is.

The notch la in the cam 1 is so 'arranged that it is around 24.00 hours cooperates with the switching element a of the switch A. An electric motor 3 is intended to drive the actual switching calendar. This electric motor 3 expediently drives via a gear 4 with the interposition of a freewheel Z, the structure and mode of operation will be described in more detail below, the Drive shaft 15 of the first date carrier 6. This first date carrier carries successively the nonatsdaten from 1 to 31o with a shaft of the gear 4 is a cam disc 2 connected, which interacts with a, changeover switch B, which also acts as a microswitch is trained. The arrangement is made in such a way that the Motor 3 caused the first date carrier to be switched on by a day specification Cam disk 2 rotates once.

A second date carrier 9 is driven via a gear 7, 8 which bears the names of the months. The transmission 7,8 1-is designed so that after a complete rotation of the first date carrier 6, the second date carrier is advanced by a nonat designation. The second date carrier is from the gear S is driven via the drive shaft 14.

Both on the drive shaft 15 and on the drive shaft 14 Cam disks 5,10,11 are arranged, These cam disks work with microswitches D, E, F, G and H, I together. The circuitry of these Nikroswitches is shown below explained.

For the sake of simplicity, in the designated embodiment example four cam disks, which in themselves are required for operating microswitches D, E, F, G. would be combined to form a stepped disk 5, this stepped disk 5 on the first date carrier 6 is attached. The step pulley 5 is part of a Cylinder jacket, but with the individual fields 5d, 5e, 5f, 5g in the circumferential direction are of different lengths. The arrangement and length of the individual fields is so hit that at the end of the 28th day of Nonat field 5d the microswitch D actuates, at the end of the 29th day the field 5e the microswitch E, at the end of the 30th day the field 5f the microswitch F and at the end of the 31st day the field 5g the microswitch G closes.

The cam disks are on the drive shaft 14 of the second date carrier 10 and 11 arranged. First of all, there is a special feature of the exemplary embodiment shown to point out.

In the embodiment shown, for reasons of savings and to make the individual dates of the month or month names appear large enough to let the date stamp 6.9 advantageous as leaf rollers in the form of a blcitter clock designed with jumping number faces. It turns out that on the first date carrier 31 number sheets are present, while the second date carrier would have only 12 number sheets with the Monts numbers. To compensate here to create, it is advisable to place the leaves with the on the second date carrier To arrange the month names of a year twice. This results in a total of 24 number sheets. The gear 7,8 is designed accordingly, so that after The drive shaft 14 of the second date carrier turns 12 revolutions of the first date carrier 9 shot the first half time. But it also follows from this that the cam disk 10, 11 also turn only half a time and consequently the cams 10a, resp. ha, must be present twice. However, this plays after the cams by punching -herg-estelit will -n, no role.

The cam disk 10 is intended for February months. You far, -d-there-you rotates only once in two years, corresponding to two cams offset by 180 ° 10a. The cam 10 cooperates with the microswitch H. The cam disc 11-should be active for 30 days in all months. Accordingly are 4 cams 11a or a total of eight cams provided for 1 year. The cam disc 11 interacts with microswitch I.

Since the new switching calendar should also take leap years into account, a special switch function must be initiated every four years in February will. During a leap year, the 29th February is also shown on the calendar it is necessary to skip this day in normal years.

For this purpose there is a further cam disk on the auxiliary shaft 16 13, the cams 13a of which interact with the micro switch K. The drive the auxiliary shaft 16 takes place via a gear 12 from the drive shaft in such a way that that the auxiliary shaft 16 rotates once every four years. How to get from the drawing can be seen, the cam 13 contains a total of three offset by 900 each Switching cam 13a, while a switching cam is missing on the fourth 900 division. the Cam disk 13 is therefore used in all February months with the exception of a leap year close the switch while the cam disk 10 works without Exception the switch H 'closes. The consequences resulting from this are subsequently explained using the switch image.

As can be seen from the circuit diagram shown in Fig. 2, special precautions are taken to switch to the first Date carrier 6 on the day send each day by one day. To this end are the two cam disks 1 and 2 and the changeover switches A and B are provided. The contacts the changeover switches A and B are connected by two parallel lines. At midnight the switching element a of the switch A falls into the notch la of the cam disc, whereby the switch A is switched from the position shown. This will over the switch B of the motor 3 is switched on. As a result, the transmission 4 is in gear set and the cam 2 rotated in the direction of the arrow. After a short time When the motor starts, the switching element b is lifted out of the notch 2a, causing the switch B is switched and the current to motor 3 is interrupted. Both switches are at this moment in their position not shown in FIG. In the meantime However, the clockwork continues to run and the cam disc 1 continues to turn.

As a result, the switching element a comes out of the notch la and the switch A is switched back to its drawn position.

This closes the circuit to motor 3 again via switch B, and until the switching element b falls back into the notch 2a. This switches switch B to its position shown in the drawing and the motor is stopped. The cam disk 2 has covered a full revolution, which is due to the design of the gear 4 of the weft circuit of the date carrier 6 corresponds to a date indication. A manual switch can be used to switch the clock on after a long period of inactivity C may be provided, the circuit to the motor 3 also being closed when it is actuated will.

As can also be seen from FIG. 2, the initial switches are located H, I, E via parallel circuits in series with the limit switches D, E, F. Above- the gear 7,8 is after each full revolution of the first date carrier 6 the Drive shaft -14 of the second date carrier 9 advanced by a twenty-fourth. This not only creates the new name for flonats visible, but at the same time the cam disks 10, 11 are also reduced by a twenty-fourth and the cam 13 is advanced by a forty-eighth. Here comes each one of the cams 10a, 11a or 13a in contact with its associated microswitch. Assuming that it has just switched from January 31 to February 1, in this angular position of the drive shaft 14, the cam disks 10 and 13 to lie in such a way that the two start switches h and K are closed at the same time will. However, since this is in series with switches D and E, it takes place first no further switching function '.

However, at the end of the 28th day via cam disc 1 and 2 as well the motor 3, the first date carrier, is advanced by one day, so the switch D is closed by the field 5d 'of the stepped disk 5. The power supply to motor 3 now lasts until the switching element of switch D-the field sd leaves. The length of the field 5 <1 is dimensioned so that the switch D only is reopened when the number 1 appears on the first date carrier. Simultaneously however, when the first date carrier was switched to the number 1, the Drive shaft 14 rotated a twenty-fourth of a turn, with the switch H and K are opened again, and the switch I remains open as in this Position of the cam disk 11 no switching cam is provided. At the end of the 28th day the switch D is closed via field 5d, at the end of the 29th day via field 5e of counter E, at the end of the 30th day of counter F from field 5f. These remain ineffective, however, since the initial switches H, I, K are open. The mess could now be made so that at the end of the 30th day of the cam disks 1,2 and the motor 3 the switchover in the bisnerigen kind from one day to the next, namely on the first of the month. However, with this switchover at the same time, the drive shaft 14 is also shifted forward by a twenty-fourth will. However, after the drive shaft 15 is practically in this switchover only rotates a thirty-first, inaccuracies could occur. For this Reason is with the embodiment shown, the transmission 4 designed so that with a complete revolution of the cam 2, the first Date carrier turned not a thirty-first but a thirty-second will. Between the number sheet with the number 31 and the number 1 there is either a blank sheet or no sheet provided at all. In order to switch from the 31st day to the 1st day, so the first date carrier has to be turned a thirty-second second twice be, i.e. the drive shaft 15 performs a sixteenth movement. above that Transmission 7,8, the drive shaft 14 is then rotated further by a twenty-fourth. So that the rotor 3 remains switched on long enough at the end of the 31st day to the movement of the drive shaft 15 by a sixteenth to act is on the stepped pulley 5, the field 5g is provided, which interacts with the switch G. This remains closed until the empty field has jumped over and the number sheet with the Number 1 appears.

In the following month of April, the cam disk 11 the switch I closed, whereby the switchover to the first via the field 5f Day of the month occurs after the 30th day of Monday.

In the case of a calendar clock, it is important that this is done after a long period of inactivity can quickly be set correctly again.

Both the second and the first data carrier for aich can be adjusted alone. For this purpose, between the drive shaft 15 of the first date carrier 6 and the electric motor 3, a freewheel Z is provided, which the rotation of the date carrier 6 by hand in the incremental direction independently of the electric motor 3 allows. For example, at the end of the drive shaft 15 a corresponding Adjustment knob be provided. The freewheel Z consists in the simplest way of one axially displaceable and freely rotatable on the drive shaft 15 disc 1T, the can be designed as a gear at the same time. This disc has lobes or Projections 18 on which the Date carrier 6 facing side protrude. The date carrier 6 is provided with recesses 16 into which the tabs 15 can intervene, the disk 14 being attached to the date carrier by spring force is pressed. The tabs or projections are sawtooth-like. tber The flap is normally used to rotate the date carrier 6. If this is to be done be rotated independently of the motor 3, the tabs slide thanks to their sawtooth-like shape Training out of the recesses 6 and the date carrier can thereby on the desired setting can be brought. So that a perfect fixation of the Date carrier is guaranteed against the disk 14, the number of wells 19 correspond to the myriad of number sheets including the blank space.

Since the drive shaft 14 of the second date carrier only occurs during the switching process connected from the 31st to the 102ag with the drive shaft 15 of the first date carrier is, a manual drive can be provided at a suitable point with which the drive shaft 14 can be rotated. To get the right attitude here not only with regard to the Month designation but in particular the leap years are to be guaranteed on the cam disc 13, the cams 13a are numbered consecutively. In the housing 20 a window 21 is provided; which each recognize one of the numbering leaves. The length of the window is' dimensioned so that every numbering during is visible for a whole year.

However, the present invention is not intended to apply to the illustrated embodiment be limited. For example, instead of the micro switch, so-called protective gas contact switch, r be provided, the cams on the cam disks being replaced by small magnets would be. However, this design should only be suitable for larger watches.

Claims (1)

P a t e n t; a n 5 p r ü c h 1. Switching calendar, especially calendar clock with automatic consideration the length of the month, with two coaxially arranged, rotatable date carriers, of which the first the month data, the second the month names, a switching device, which is operated every 24 hours by a clockwork or the like and the first date carrier rotates by one day, while the latter rotates after one complete cycle turns the second date carrier by one nonat designation, and several limit switches, operated by the drive shaft of the first date carrier one after the other at the end of the month with the start actuated by the drive shaft of the second date carrier switches are in series and, depending on the position of the second date carrier, months with less than 31 days cause the first date carrier to advance, thereby G e k e n n n z e i 'c h n e t that the switches (D to K) are designed as microswitches and with the drive shafts (14,15) of the date carriers (6,9) cam disks (5,11,12fi13) are connected, which interact with the microswitches. 2. Calendar according to claim 1, characterized in that g e k e n n z e i c h n e t that an electric motor to drive the drive shaft (15) of the earth date carrier (6) (3) and a gear (4) are provided, and that to continue @ @@@ the first Date carrier (6) two in series changeover switches are provided, between their Contacts two parallel lines extend and the cam disks (1,2) of the clockwork and the gearbox connected to the electric motor (3) switched in this way that the cam (1) of the clockwork is the first switch when changing the fee (A) switches over, the circuit to the motor (3) is closed via the second switch and thus the motor is started for a short time until the cam disk (2) of the gearbox switches the second switch (B), then at Continue of the clockwork the first switch (A) returns to its starting position and again closes the circuit to the motor until after one full cycle of the second -Cam disk (2) the second changeover switch (B) returns to its starting position. 3. Calendar according to claim 2, characterized in that it is e k e n n e i c h e n e e t that a manual switch (C) is provided for setting the calendar, when Actuation of the circuit to the motor (3) is closed, 4th calendar according to claim 2, characterized in that between the drive shaft e 5) of the first date carrier (6) and the electric motor (3) a freewheel (Z) is provided, which the turning of the date carrier (6) by hand in the incremental direction regardless of the electric motor (3) allows. 5. Calendar according to claim 1, characterized in that g e k e n n z e i c h n e t the date carriers (6,9) as leaf rollers in a Formhiner leaf clock with jumping number leaves Designed sind0 6. Calendar according to claim 5, characterized in that it g e k e n n z e i c h n e t that on the second date carrier (9) the sheets with the month relationships of a Are arranged twice a year. 7. Calendar according to claim 1, characterized in that g e k e n n z e i c h n e t with the drive shaft (14) of the second date carrier (9) an auxiliary shaft (16) a gear (12) is connected so that it rotates once every four years, whereby on the auxiliary shaft (16) a cam disk (13) with three each offset by 90 ° Cam (13a) is provided, which in February months a start switch (K) close 8. Calendar according to Claim 7, characterized in that it is e k e n n z e i c h n e t that the second drive shaft (14) can be rotated by hand on the February cam disk (13) the cams (13a) are numbered consecutively and a window in the housing (20) (21) is provided, which reveals one of the numbering in each case. 9. Calendar according to claim 4, characterized in that g e k e n n z e i c h n e t the freewheel (Z) consists of an axially displaceable, spring-loaded, on the drive axle (15) rotatable disc (17), which has a ring gear on its circumference and on its top surface, which is attached to the first date carrier (6), with sawtooth-like surfaces Projections (18) are provided with depressions (19) on the face of the date carrier (6) cooperate. 10.Kalender according to claim 5 and 9, characterized in that g e k e n n z e i c hn e t that the holes in which the axes of the dials serve as depressions are stored.