DE2735890A1 - Calendar switching mechanism - has month revolution shaft and double further turning of shaft via differential gearing - Google Patents

Abstract

The additional further turning of the second drive shaft of the differential gearing is controlled by a cam drum which is displaced axially by a certain amount for each revolution. On the other hand, according to a different helical path principle, the blocking lever (15) of this additional drive is swivelled out and in. The main gearing consists of the differential gearing made up of the flange of a shaft with internal toothing and of a gear with a shaft and hollow shaft with flange, other gears being mounted rotatably on its bearing pin.

Description

Calendar switchgear

The invention relates to the main transmission of a calendar switch mechanism with monthly circulation shaft and mechanical end-of-month drive with a differential gear.

This main transmission is shown only semi-schematically in the drawing. Figure 1 shows the view from the right and Figure 2 the section A-A through d.ws Differential gear.

Figure 3 shows the section B-B of the differential gear whose shaft 2, the Snerrad 8 is fixedly arranged. The drive of the shaft 2, which rotates clockwise is under the action of a torque is not shown.

This main gear consists of; ü the differential gear 20, which consists of the flange 1 of the shaft 31 with internal teeth b and the gear 3 with shaft 2 urid hollow shaft 5 with flange 4, around whose bearing pin b the gears 7 are rotatably mounted. The flange 1 is firmly connected to the elle 21 and the flange 4 is firmly connected to the hollow shaft 5. The gear wheel 3 is connected to the shaft 2. Part 8 is the ratchet wheel of shaft 2 and part 10 is the one he monthly circulation shaft 11. Part 13 is the camshaft, the ends of which are provided with a thread wid are rotatably mounted in corresponding threaded bores; this camshaft 13 is rotated further by the monthly rotating shaft 11 via corresponding intermediate parts in a ratio of 1: 1 and is displaced in the axial direction by the pitch of its thread mounting.

The approach e of the locking disk 8 is therefore a locking approach and the approach f of the monthly revolving wheel, a cam for advancing the month display mode by a partial step.

Part 14 is a shaft with 2 levers that can also be rotated in housing bores is stored, like the 'Nellen 2 and 11; of this is the lever 15 the locking lever of the locking disk 8 and the lever 16 of the pivot lever of this shaft 14; these two levers 15 and 16 are fixedly arranged on the shaft 14, which rotate to the left is under the action of the spring 17. The shaft 21 of the differential gear 20 is viewed clockwise in direction A on every anniversary during the daily running time turned by 1/2 a turn; In contrast, the shaft 2 is below the Effect of a torque and runs after the locking lever 15 has been swiveled out as long as until this locking lever is swiveled back into its locking position (position shown) is. The internal toothing b of the differential gear 20 has four times the pitch circle diameter of the gears 7 and twice the pitch circle diameter of the gear 3.

When shaft k (gear 3) and rotating shaft 21 (internal toothing b) are at a standstill, the hollow shaft 5 (flange 4) continues to rotate by 2/3 of a turn in the same direction of rotation. With fixed internal toothing b and rotating shaft, 2 (gear 3) by one turn, the hollow shaft 5 (flange 4) continues to rotate in the same direction of rotation by 1/3 of a turn. The monthly rotating shaft 11 is rotated further by the hollow shaft 5 in a ratio of 1: 10.33 (number of teeth: 18/62 x 20/60) and has a daily increment of 1/31 revolution. This partial step is achieved by the shaft 21 with 0.5 turn and by the shaft 2 with 1 turn. As already mentioned, the camshaft 13 is rotated further by the shaft 11 in a ratio of 1: 1 and is shifted in the axial direction by the amount of its thread heating, which is so is as large as the axial spacing of the cams. In type A, this camshaft is provided with only 4 30-day cams and one 28-day cams (shown in dotted lines), corresponding to the number of months with less than 31 days, which correspond to each other Have angular distance. This transmission has the disadvantage that the camshaft 13 has to be returned to its starting position at the turn of the year.

For the sake of simplicity, the camshaft 13 is only at one end This thread is provided and the axial displacement of this shaft takes place through a pivotable thread segment.

The mode of operation is as follows: The shaft 21 is from a not shown drive motor with reduction gear during the daily Running time of the calendar switching mechanism as seen in weighting A, turn clockwise by 1/2 turn turned further. Here, the hollow shaft 5 rotates in the same direction of rotation by 1/3 Turn further and the shaft 11 with the monthly circulation wheel 10 over that only with his Intermediate gears for shafts 5 and 11 (hollow shaft 5 and shaft 11) by 1/31 of a turn. Driven by the shaft 11, it also rotates here the camshaft 13 continues in a ratio of 1: 1 and shifts with each revolution around the pitch of their thread bearing. On normal days of the month, the Part of the day of shaft 21 (1/2 turn) only shaft 11 with monthly circulation wheel wheel 10 and the camshaft 13 clockwise by one day increment (1/31 turn) Turned clockwise further and with it the weekday display drive from the shaft 21 is rotated one increment (1/7 or 1/14 or 1/21 turn) and the Day of the month display drive from shaft 11 (also by a partial step = 1/31 Urndrehw1g). The cam wedge is located at the end of the month-day transition of the 30-day ltonate 13 with the corresponding monthly cam d in the position shown and is so that the locking lever 15 is pivoted out in the following sub-step of the camshaft 13, as a result of which the clockwise rotation is also under the action of a torque Shaft 2 can continue to rotate by one revolution. This simultaneous rotation of the Shaft 2 by 1 revolution at the day sub-step of shaft 21 becomes shaft 11 and the The camshaft 13 is rotated 2 increments further and the shaft 14 is then located with their levers 15 and 16 again in the position shown in which the further rotation the shaft 2 is blocked by the lever 15. The February cam is around the area h greater than the 30-day cam d; for this reason will be through the February cam of the shaft 13 released 3 revolutions of the shaft 2 and the monthly revolving shaft 11 turned by 4 steps.

The camshaft 13 has the following disengagement flank distances: Beginning of the year - February 28th 59 sub-steps February 28th - April 30th April 30th - June 30th 62 30th June 30th - September 30th 93 September 30th - November 30th 62 November 30th - December 31st 32 A second camshaft 13 is required for leap years because of the disengagement flank distance flovember-February has 91 sub-steps and the cam h has increased one sub-step (the half the dashed dotted area h) is shorter.

Claims (1)

Claim 1) Calendar switch mechanism with monthly circulation shaft and double further rotation of this shaft via a differential gear, characterized in that the additional further rotation of the second drive shaft of the differential gear is controlled by an ock drum which moves axially by a certain amount per rotation or that according to another helical path principle Locking lever this Locking lever of this additional drive is swung out and swung in.