DE2655054A1 - Calendar operating mechanism - has fully automatic expiration of year and drive for month and day display rotated by two carriers - Google Patents

Abstract

A calendar operating mechanism is used which has fully automatic expiration of year and a drive for month/day display rotated by two carriers comprising spring plates. One carrier transmits the partial step for the day and the other carrier the end feed for the month up to the day number 1. The month/day display drive is provided with an additional locking body with a tooth. The tooth comes to rest on a stop capable of swivelling when the stop is swivelled or inserted into the month/day display drive. Alternatively the month/day display drive has another rotation lock which has the same effect.

Description

Calendar switchgear

with a fully automatic annual cycle the subject of the invention is a Calendar switch mechanism with fully automatic annual cycle, its electrical means of movement not switched on by a contact cylinder with helical contact path but from a cam body, which is provided with 12 monthly cams, the are arranged in the corresponding angular position. The drive of this calendar mechanism takes place via an elle that continues to rotate by 1/31 of a turn per day. The weekday indicator drum is continued to rotate directly because this changes daily during the runtime of the calendar switchgear must turn one step further. The day of the month display operation is via a Driving body rotated further, which is provided with driving springs, which in feed tooth gaps the feed receptacle intervene and thereby a further rotation of the Moiiatstages indicator drive to effect a partial step. The month-end further rotation of this month-day display drive up to day number 1 on months with fewer than 31 eyes becomes electromagnetic or caused by an electric motor; this is on the other side of the feed holder disk a second provided with driving springs I-entrainment body arranged, whose Drive springs also drive the day of the month display mechanism. This second driver body is moved by a toothed bar. Using this Principle is made possible by the fact that an electromagnetically pivoted locking spring or the locking lever stops the rotation of the day of the month display mechanism when the day number is 1. The onats display operation is also electromagnetic or electromotive on the end of the month rotated one step further. For the drive of this calendar switch mechanism is also an electric motor required, which has a reduction gear and a rotary off switch to switch the drive shaft during the daily running time Turns 1/31 turn further; also for this calendar mechanism there is an exactly running one electronic clock required, which switches on the day change run at midnight.

This calendar switchgear is on drawing 1 in a vertical Section through the shafts or hollow shafts. The framework is only schematic shown as a number of bearing bodies and the housing not shown at all.

On drawing 2 in Figure 1 is the development D-D or a piece of this Processing shown. Figure 2 Drawing 2 represents a piece of the development E-E Figure 3, drawing 2, shows the section B-B and Figure 4, drawing 2, the section C-C. The position of the cam disks in relation to one another is shown in FIGS. Figure 5 illustrates the cam plate 51 (1) and Figure 6 illustrates the cam plates 52 and 53 (2 and 3). FIG. 7 shows the cams 54 and 55 (4 and 5) and FIG 8 the cams 56 to 58 (6 to 8). Figure 9 shows the cams 59 and 60 (9 and 10) and FIG. 10 the cam disks 61 and 62 (11 and 12).

This calendar switching mechanism does not have a drive motor (electric motor) and reduction gears from the shaft 2, which turn around during the daily running time 1/31 of a turn is rotated further and rotatably mounted in the bearing blocks 1 a to 1 c is and is equipped with the cam disk package 3 and the 3-fold gear 4, which are arranged on this shaft so that they cannot rotate or move. The wave 5 is a multi-thread screw spindle that can be rotated in the bearing blocks 1 d and 1 e is stored; this screw spindle 5 has a gear fixedly arranged on it 6 provided, which is driven by the gear 4 b. Part 7 is the axially movable one Lever carriage driven by the screw spindle 5 according to the rotation of the shaft 2 is moved; this lever slide 7 consists of the slide body 8 with multi-start internal thread and the feeler lever 9, through which the lifting carriage 7 each Month from another cam disc is pivoted outwards. the Pivoting movement of this lever slide 7 is based on a not shown only transferred pivotable other lever, which is in the reverse pivoting direction below the action of a spring and the switch of the rack feeds Shaft 12 actuated.

The screw spindle 5 is at its right end because of its thread provided with the bearing bush 10, which is provided with a corresponding internal thread and is secured against rotation by the pin 11 on the screw spindle.

The display gear for specifying the day of the week, day of the month and month are arranged on the shaft 12, the 3 times directly in the bearing blocks If, 1 g and 1 h and 1 time is stored indirectly in the bearing block 1 i. Part 15 is the weekday display mode, which consists of the display drum 16 and the hollow shaft 17 and the gear 18, the are firmly connected to each other; this weekday display mode is driven by the gear 4 c, which is arranged in a triangular position via a not shown and also in the frame 1 mounted intermediate gear, the gear 18 continues to rotate. That Gear 4 c has 31 teeth and gear 18 has 14 teeth; according to this transmission ratio the weekday display drum 16 is provided with 2 labeling sequences. The monthly bar display operation 19 consists of the display drum 20 and the shaft 12 and the rotation receiving disk 21, which are firmly connected to each other. This composite part 19 is on the one hand by the driver body 22 rotated further, which is provided with spring tongues 23, which in engage the driving tooth gaps a of the part 21 (drawing 2 Figure 1). The part 21 is provided with 31 entrainment tooth gaps, which are arranged on both sides because the monthly day display operation on the end days of the months with less than 31 Days must be turned by an additional feed. This additional The feed is brought about by the driver body 24, which is also provided with spring tongues 23 which engage in the driving tooth lugs b of part 21. The rotation take-up disk 21 of the day of the month Display drive is still with its scope the locking teeth c provided, which is arranged under the action of a resilient Locking roller, the day of the month display mechanism engages after each sub-step causes. On the one hand, this month-day indicator is turned further by the gear 4 a, which is mounted on a frame 1, not shown Intermediate gear drives the gear 22 a and on the other hand through the rack 25, which is under the action of a return spring and with its teeth into the Gear 24 a engages. Part 26 is the guide of the rack 25; this emotion 26 can be arranged pivotably on shaft 12 if the test is necessary (Movement of the rack through a crank pin). In the normal case, the rack guide makes 26 no pivoting movement because the rack 25 is driven by a pinion (gear with a small diameter) or by a linearly guided magnet armature is moved. The month display drive 27 consists of the month display drum 28 and the hollow shaft 29 and the Drehuggsaufnahmeschisk 30, which are firmly connected to each other are. This month display drive is rotated by the driver body 31, which is also provided with resilient driving tongues 23, which are in driving tooth gaps of part 30 intervene. The driving body 31, like the driving body 22 and 24 is rotatably mounted on the shaft 12, is in turn by the rack 32 moves, which is also under the action of a return spring and through the Part 33 is performed. This rack and pinion guide can also be swiveled on the shaft 12 be mounted or rigidly arranged. The day of the month display ratchet wheel 34 is provided with a ratchet tooth s and is under the action of an electromagnetic pivotable locking plate 35, the rotation of the day of the month display mechanism at the day number 1 stops.

This calendar switch works as follows: The drive shaft 2 is driven by an electric drive motor and a reduction gear, which are not shown are, during the daily runtime (at night at 24.00) seen in direction A, turn left by 1/31 of a turn and this daily angle of rotation in its summation is precisely observed in that the The drive motor is switched off by a circuit breaker (gear intermediate stage with 1 turn per daily running time). In the course of this daily run time will by the gear 4 c via an intermediate gear, not shown, of the weekday display drive 15 (composite part 16-17-18) turned a partial step so that it is on the display drum 16 the next day of the week appears. Also, over the course of this daily run time by the gear 4 a and an intermediate gear, not shown, also the day of the month display drive 19 (composite part 20-12-21) rotated one step further, so that on the display drum 20 the next day number also appears. On the end of the month, the effect of the cam disk set 3 or the relevant monthly cam of the lever slide 7 is pivoted to the right and thus moves a circuit is closed through which the racks 25 and 32 in the feed direction be moved. This also causes the month display drive 27 (composite part 28-29-30) Moved one step further, which means that the next month is also shown in the display section of the housing appears. The further rotation of the day of the month display mechanism 19 (composite part 20-12-21 is effected in that the rack 25 up to the stop in the feed direction is moved. This stop is formed by the part 35, which is sufficient Time difference earlier (before actuation of the rack 25) electromagnetically into his Locked position is swiveled in.

The cam disks 51 to 62 are in Figure 5 to 10 on the drawing 2 shown with a smaller bore (shaft diameter).

The pitch of the multi-start threaded spindle 5 is as great as that Distance between the cam disks 51 to 62 based on the same area of the cam disks.

The easiest way to solve the shift setting is that the NoGkenscheibenpaket 3 is arranged so that it is seen in direction A, on 28. February of the leap years can be adjusted clockwise by 1/31 of a turn. These Adjustment can; take place during the whole of February and must be done during the course of the month of December should be reversed if this principle is used.

In drawing 3, the embodiment B of the axis 2 is shown. at In this version, the cam disk package 3 is an easily exchangeable plastic body, which is replaced by the leap year cam body at the beginning of the leap year will. In this leap year cam body, the cams of Figures 6 to 10 (drawing 2) clockwise by 1/31 of a turn compared to the cam for the month of January and the Rotary drive offset. These two cam bodies 70 and 71 can by means of a Washer 72 and a split pin 73 or by other means in the axial Direction to be held.

Both rack and pinion drives are driven by the day of the month display switched off by means of an additional switch after the day number 1 has been reached and when the day number 15 is reached, it is switched on again.

In the case of version C of this calendar switching mechanism, instead of d <'bs Multiple cam body 3 arranged a single cam and instead of the lever slide 7 with a feeler lever a lever carriage with 12 feeler levers. This version C has the disadvantage that the cam only works with the sub-step 1 / 30.5 Revolution can be operated.

The electrical movement means of this calendar switch mechanism can also by a helical contact cylinder with contact slide or a Spiral line contact disk with contact swivel arm can be switched on.

Claims (4)

Claims 1) Calendar switch mechanism with fully automatic annual cycle, characterized in that the day of the day display drive (19) is equipped with 2 spring-tongues or spring pawl driver body (22 and 24) is rotated further, one of which (22) transmits the day's sub-step and the other (24) transmits the end-of-month feed up to day number 1. 2) calendar switching mechanism according to claim 1, characterized in that the day of the month display mechanism (19) is provided with an additional locking body (34) which has a tooth which rests against a pivotable stop (35) comes when this stop (35) is swiveled in or that the day of the month display drive - (19) is provided with another, similarly acting turnstile. 3) calendar switching mechanism according to claim 1 and 2, characterized in that that the month display drive (27) also by a rotatable driver body (31) is rotated, which in turn is moved by a rack. 4) Calendar switching mechanism according to claim 1 to 3, characterized ge.-indicates, that the electromagnetically or electrically operated racks (25 and 32) by a cam body or a helical contact cylinder or a spiral line contact disc be switched on.