DE2738883A1 - Mechanical calendar with automatic yearly cycle - has differential drive between shafts to allow for different lengths of months - Google Patents

Abstract

A mechanically controlled calendar includes a facility for a completely automatic yearly cycle that takes account of variations in the length of months. The main drive is applied to the worm year input (1) to drive a main shaft (2) that cycles once per month. A chain drive of 1:1 (7, 8) and 11:12 (10, 11) connects the main shaft and an auxiliary (9). A cam (b, c) located on a drum (13) operates a lever to control the correcting rotation of the shaft to provide adjustment for the different lengths of the months.

Description

Calendar switchgear

with a fully automatic annual cycle the subject of the invention is that Main gear of a calendar mechanism with monthly rotating shaft and mechanical reverse gearbox according to P 27 37 754.4.

This main transmission is shown in FIGS. 1 to 6. Figure 1 represents the longitudinal section without shift lever shaft 47 and Figure 2 the section A-A in semi-schematic Depiction.

Figure 3 shows the upper half of section B-B and Figure 4 the section C-C. FIG. 5 shows the development of parts 13 and 17 and FIG 6 shows part of the development of parts 24 and 25. FIGS. 7 and 8 show a comparison Training of the month-end gearbox as a rotary switch. The one in the process (Figure 7) shown contact arrangement is required here twice. Figure 9 shows this contact arrangement for 1/32 sub-step and Figure 10 the electrical Circuit diagram of type A shown in Figures 1 to 6.

This main gear consists of the monthly rotating shaft 2, which over her worm gear 3 from the thread worm 4 of the daily rotating shaft 1 during the daily running time (at night at midnight) by one increment (1/31 of a turn) and thus continues to rotate by 1/31 of a revolution per revolution of shaft 1 (from counterclockwise seen from the right).

The shaft 1 is driven by a sheet metal motor, not shown, with a reduction gear driven. In other parts, this main gear consists of the ones on the shaft 2 rotatable or fixed parts and the monthly run gear 5 and the rotary switch adjustment gear 6. The Yo-Mtsendlaufgetriebe 5 consists of the sprockets 7 and 8, which the shaft 9 continue to turn over a chain (not shown) in the ratio 1/1 and the sprockets 10 and 11, the turn the main part 12 further in the ratio 11/12, whereby the main part 12 per revolution of the shaft 9 has 1/12 revolution caster. The chain wheels 7 and 10 are fixedly arranged on the shaft 2 and the chain wheel 8 firmly on the shaft 9.

In other parts, the month end gear 5 consists of the achaial slidably arranged on the shaft 9 cam body 13, its guide pins 14 engage in corresponding bores in flange 1 of shaft 9. This flange 1 can also be a fixed additional part of the shaft 9.

The cam body 13 is provided with a fixed double cam b-c provided and with the axial curve path d and is by the compression spring 15 on the Disk 16 shifted to the right and by the cam e of the main part 12 after Left.

This main part 12 consists of the chain wheel 11 and the parts 17 and 18, which are firmly connected to each other. Part 19 is a solid on the shaft 2 arranged flange, the drive body 20 of the weekday display drive via a locking coupling rotates, which consists of the socket 21 and the double ratchet 22 with hub and the sprocket 23 with raven and the passive drive disk 24, which is fixed are connected to each other. The double ratchet 22 is with 31 ratchet teeth provided and the Xitnahmescheibe 24 teeth with 31 locking. Part 25 is the active drive pulley, which is arranged axially displaceable and via 2 pins 26 to the flange 19 is rotatably coupled, which are fixedly arranged on the flange 19. Part 27 is the drive sprocket of the day of the month display drive, which is firmly connected to shaft 2 via its hub is. Part 28 is the drive pulley of the month display mechanism, which is via its hub is fixedly connected to the shaft 2 and is provided with a cam f, which the Intermediate lever of the month display drive bes moved into its second end position and snap back again. Part 29 is the circulating body of the monthly Yinimallange Umlaur counter 52, which is also arranged on the shaft 2 in a torsion-proof manner. Part 62 is the swivel body of this month's minimum-length circulation switch, which can be rotated on the pin h of the shaft 2 is mounted and is provided with the bearing pin 31 on which the contact bracket 32 swiveling is arranged, the left swinging under the effect a spring stands. Part 30 is the contact ring of the circulating body 29, which with the Contact bridge 33 is electrically connected and part 34 is the sliding bridge of this circulating body. Part 35 is the feeder contact clip of the contact clip 32 and part 36 of the feeder contact clip of the contact ring 30.

The rotary switch adjusting gear 6 consists of the gear 37, which is fixedly arranged on the shaft 9 and the double gears 38, 39, 40 and 41, which are rotatable on the shaft 9 or a journal of the shaft 9 and the bearing pin 42 are arranged. Part 43 is the final gear of this rotary switch adjustment gear 6, which is provided with the cam i, which pivots the adjusting body 62 to the left moves and makes 1 revolution in four years. The month end switch 44 and the Rotary lock switches 45 of the main part 20 are not shown and are simultaneously actuated by the lever 46 which is fixedly arranged on the axis 47. The wave 47 is provided with a second lever 48 fixedly arranged on it, via which the Shaft 47 counter to the action of spring 49 through cam b or c of the cam body 13 is moved into its right-hand pivot end position, in which the switches 44 and 45 are in their switch position.

In type B, part 13 is provided with two circulating contacts k, the simultaneous contact with two fixed contacts m and n or o and p close the current path of a 2-way circuit switch and thus take over the function of switches 44 and 45. There are therefore two circulation switches required because the lines k and q are not directly connected to one another to be allowed to.

FIG. 8 shows the section A-A and FIG. 7 the corresponding one Development with the radius r. In FIG. 9, this contact arrangement is for a monthly rotating shaft shown with 32 sub-steps.

The electrical system of this type A calendar switching mechanism (Figures 1 to 6) is made consisting of the following parts (circuit diagram Figure 10): 1 daily circulation shaft 2 monthly circulation shaft 44 End of month switch 45 Rotary rafter switch 52 Minimum length of month switch 53 day cycle switch (day cycle switch) (switch angle: 90 to 360 degrees) 54 Drive motor (AC drive motor) 55 Weekday display drive blocking magnet 56 Relay switch of the drive motor 54 57 "" Weekday display operation blocking magnet 55 58 Rectifier 59 24-hour switch (switch-on time: approx. 5 seconds) 59 b hand switch 60 relay switch 61 How this calendar mechanism works results as follows: On normal days of the month, shaft 2 is via its worm wheel 3 from the screw 4 of the daily circulation shaft 1 by 1 sub-step (1/31 revolution) Further turned counterclockwise as seen in direction b and the drive body at the same time 20 of the weekday display drive rotated by a partial step because the driving body 25 is pressed against the drive plate 24 by springs (not shown) and the locking lever of the locking disk 22 is not pivoted into its locking position. If you continue to turn shaft 2 by 1/31 of a turn, the weekday display mode will also be activated rotated by a partial step by the chain wheel 23 and the day of the month display drive rotated further by the chain wheel 27 by a partial step. At the end of the month and the day transition the 31-day month is additionally determined by the cam r of the cam disk 28 via a motion transmission lever, not shown, with the Vorshubklinke Yonats display drive turned one step further. At the end of the month and the day transition of the 30-day months become after further rotation of the monthly circulation wave 2 by 0.5 partial steps the switches 44 and 45 by the cam b of the cam body 13 via lever 48, shaft 47 and lever 46 closed and thus the relay post-switch 56 over its third Current path switched on and switched on by switch 45 of relay switch 57.

This third current path creates the gap in the second current path (Daily circulation switch 53) bridged its current path only from 90 to 360 degrees closes. The turnstile of the weekday display drive drive body is now also there 20 switched on (a locking lever swiveled in electromagnetically), so that the Drive body 20 can only continue to rotate by a partial step (1/31 turn). To Approximately 1.5 daily steps of the waves 2 and 9 then the wave 47 snaps with their Lever 46 and 48 back into the position shown in Figure 2 and remains the relay post-switch 57 of the blocking magnet 55 via the holding current relay switch 61 switched on. In the last half part of these two day part steps is the relay switch 57 also only switched on via the daily circulation switch 53, the in the angular position 360 degrees or earlier by the outlet angle, his Current path interrupts and thus also switches off the relay post-switch 60. At the end of February day transition the switches become after further rotation of monthly circulation shaft 2 by 0.5 increments 44 and 45 by the cam c of the cam body 13 via lever 48, shaft 47 and lever 46 closed and thus the relay switches 56 and 57 two days earlier than on one. 30-day month switched on. In the further course of the February end-of-month run, the switch-on hatch of the daily circulation switch 53 three times through the switches 44 and 45 bridged because the holding current relay switch 61 is now also switched on.

After about 3.5 days of partial steps of waves 2 and 9 then snaps the shaft 47 with its levers 46 and 48 back into the position shown in FIG back and remains the relay switch 57 of the locking magnet 55 on the holding current relay switch 61 switched on. In the last half partial ride, the end of February day run is the same like the end of the day of a 30-day month.

At the end of February of each leap year, the cam i of the gear wheel arrives 43 in the position shown in Figure 4 and is thus the pivot body 62 in the position shown in Figure 4 pivoted. The contact clip arrives through this 32 into the position shown in FIG. 3 and thus becomes the minimum length of the month extended to 29 days (29 daily increments). and with it the end of February at one Day postponed.

After one year, the cam i has rotated 90 degrees further and the NOCKen c works normally again.

The puncture of the cam f of the cam disk 28 can thereby be improved be that the monthly circulation wave 2 and the other parts on a day part sohritt of 1/32 or 1/33 or 1/34 of a turn. Here is the cam body 13 still provided with an additional cam a, the opposite of the cam b to is one part step back.

Claims (5)

Claims 1) Kaender switchgear with monthly rotating shaft and normal Partial step-further turning of this shaft by an electric motor with reduction gear, characterized in that the Weiterdrehuxig this monthly rotating shaft (2) through a cam body (13) is controlled by an axial cam path accordingly of the respective month class is shifted axially. 2) calendar switching mechanism according to claim 1, characterized in that the cam body (13) in a ratio of 1/1 from the monthly rotating shaft (2) and the adjustment part (12) in the ratio 11/12 or 13/12 of the monthly circulation (2) is turned further and thus 1/12 turn per turn of the cam body (13) Has lead or 1/12 turn lag. 3) calendar switching mechanism according to claim 1 and 2, characterized in that that the cam body (13) is provided with a double cam (b-c). 4) calendar switching mechanism according to claim 1 to 3, characterized in that that the axial cam track d and the cam e are reversed (version B). 5) calendar switching mechanism according to claim 1 to 4, characterized in that that the part 13 is not provided with a double or triple cam, but with two contact bridges (k) for 2 circulation switches.