DE2708869A1 - Calendar with automatic month changeover - has advance mechanism which controls electric motor to correct for number of days in month - Google Patents

Abstract

An automatic calendar mechanism includes an adjustment facility for the different number of days within the month. The main calendar display consists of drums and sprockets mounted on a central shaft (3). The different number of days within the month is handled by electrical contacts (22, 21, 24, 25) across two discs. A separate planetary gear unit causes relative displacement of the contacts when the number of days in the month is less than 31. This causes a motor coupled to a regulating shaft (4) to be activated to maintain correctness of the display.

Description

Calendar switchgear

with a fully automatic annual cycle the subject of the invention is a Main gear for a calendar mechanism with a fully automatic annual cycle. at This main gearbox uses a leading body that has so many sub-steps Has lead time than the expiring month has less than 31 days The lead time of the lead body is effected in this gear by a special planetary gear, whose left Outer part is fixed and its right outer part is the flow adjustment body. This advance adjustment body is adjusted by a cam which is used for has the corresponding radius every month. The flow adjustment body 28 channel for this purpose on the hand of its flat surface a with a bolt or a roller on the cam which rotates by 1/12 of a revolution per month unrolls. The advance adjustment body is opposite to the actuation direction of the Survenscheibe under the action of a spring. This cam and its drive and its motion transmission on the forward adjustment 1 ikbody 28 is not shown; For driving this Cam disk only a normal reduction gear is required, which is from the Shaft 1 is driven. The axis of this cam is in the same position Direction, like the other shafts of this gear.

This main gear is therefore an additional cam gear shown on the drawing. The individual rushes are not practical Execution form, but shown in a simplified manner and provided with a horizontal line, provided that these are parts that are firmly connected to the corresponding shaft are. Figure 1 shows that part of this transmission that the weekday urid the day of the month display drive continues and Figure 2 the special planetary gear.

This calendar gearbox consists of shaft 1, the one on the left rotatable in the fixed planetary gear part 5 P19CE'rt jsl: ilnd right in part 36 of this transmission is mounted and with its chain wheel 6 via chain wheel 7, the shaft 2 drives, the right end of which is rotatably mounted in the bearing body 8 a. On the Hub 10 of the sprocket 7 is also arranged the sprocket 8, which the weekday display rotates one step further every day. Part 9 is the flange of this hub 10 and part 11 a driving spring washer that drives the shaft 3 via the toothed washer 12 every day also un turns one step further, provided this shaft is not of the Shaft 4 as seen in direction A clockwise over the flange 13, driver spring washer 14 Wid toothed washer 15 rotated 2 or more sub-steps (at the end of February) will. The shaft 3 is rotatably mounted in the bearing bodies d b and 8 c ut13 das left end of the shaft 4 in the bearing body 8 d. The hub 16 is rotatable on the elle 3 stored and provided with the sprocket 17, that of the sprocket 18 of the special planetary gear 19 is driven. The hub 16 is also provided with the flange 20 in which the segment contact piece 21 is arranged, its fixed contact body that is part 22. The flange 23 is fixedly arranged on the shaft 3 and also with a segment contact piece 24 is provided, its fixedly arranged contact body that is part 25.

The special planetary gear 19 consists of the stationary Part 5 and the rotatable advance adjustment body 28, which is in the area of the planetary gears 29 and 30 are provided with internal teeth wd the rotatable cage 31, in which the bearing pins 32 wid 33 are arranged on which the planetary gears 29 and 30 and 34 and 35 are rotatably mounted. The diameter enlargement b the Shaft 1 forms the left radial and axial guide of part 31 and is in the area the planet gears 29 and 34 are provided with a toothing. Part 36 is the other inner gear part, which is in the area of the planetary gears 30 and 35 with a toothing is provided and the right radial and axial guide of the part 31 forms. the Shaft 1 is rotatably mounted on the left in the approach c and on the right in part 36, which in turn is rotatably mounted in the bearing body 8 e.

The planetary gear is shown without play. The direction of rotation of shafts 1 to 4 is in direction A to the right. The toothed lock washers 12 and 15 have 31 Teeth.

The mode of action is as follows: On normal days of the month, the shaft 1 continued to rotate by 1/31 of a turn during the t ;; same running time and In doing so, shafts 2 and 3 by a partial step (from clockwise as seen from the right) continued to turn because the spring tongues of the drive spring washer 11 engage in 2 tooth gaps of the toothed disk 12, which are fixedly arranged on the lelle 3 is. In -foige of the fact that the leading body 28 is only in its Vorlauf-Neueinsteliung moves, the part 36 rotates synchronously with the shaft 1, whereby the flange 20 synchronously with the wave 3 by its daily sub-steps further- <rotates, like the Flange 23. In this case, the shaft 2 rotates the weekday display drive via the chain wheel 8 daily by a partial step further and the shaft 3 via the sprocket 26 the day of the month Display drive. In reality, the advance adjusting body 28 never stands still, but gradually changes over the course of the month to the next Month transition, because the cam disk changes over the course of the month further rotated by 1/12 of a turn. The flow adjustment body therefore has at the end of each month the required advance setting, which in normal years is 0 or 1 or 3 sub-steps amounts to. On months with 30 days, part 16 has 1 sub-step lead. By this lead is closed and the current path via the parts 22, 21, 24 and 25 so that the drive of the shaft 4 is switched on, the motor of which is under tension for as long stands until wave 3 has reached the end of day sub-step 1 and thus the Day number 07 is fully swiveled in. If the part 28 is stationary, like the stationary one Part 5, the part 36 rotates with the shaft 1. The lead body 28 must for a Sub-step advance by half the sub-step angle in the opposite direction of rotation to be turned around.

Claims (3)

Claims 1) Calendar switchgear with fully automatic annual cycle, characterized in that on-devm daily intermediate drive a leading body is acorded, which has so many partial steps in advance than the current month less than 31 days and dal3 via a contact piece of this lead body (16 or 20) and a contact piece of the flange 23 of the current or switching current for the drive motor the shaft 4 is switched on and off. 2) calendar switching mechanism according to claim 1, characterized in that this calendar mechanism is provided with a double planetary gear, whose Planetary gear riders are mounted on bearing bolts that are in a common or two-part, Fixedly connected planet carrier are arranged. 3) Planetary gear, characterized in that it consists of 2 planetary gears exists, the planetary gear carriers are firmly connected to each other.