DE1226047B - Master clock - Google Patents

Description

Master clock For controlling master clocks, which impulses for switching generated by slave clocks, and to control such pulses are electromagnetic Apertures are known to allow the transmission of electrical vibrations between two Coils affect. Such a diaphragm can, for example, be a slotted disc formed and on a clockwork shaft so with respect to stationary electrical coils be arranged that only in a certain angular position of the shaft of the slot the slotted disc allows electrical vibrations to pass from one to the other Coil permitted.

The invention aims, such known electrical systems with respect to to improve the adjustability of the phase position of the respective vibration transmission, to z. B. the regulation of the impulses exactly to the 60th second of every minute enable. This object is achieved by the invention in that in a master clock at the pulses to be emitted by controlling a high frequency through a a shaft of the clockwork arranged slotted disc are generated, parallel to the slotted disk of the clockwork shaft, another slotted disk can optionally be rotated is arranged, which only in the same position of the openings of both Discs allow control of the high frequency. The. additional slotted disc according to the invention allows the adjustment of the phase position of the pulse in relation on the position of the clockwork shaft and thus the time interval that is periodic between two pulses to be delivered lies: Some embodiments of the invention are in the Drawing shown. It shows F i g. 1 a pulse generator with two concentric Coils in a perspective view, partly in section, FIG. 2 a master clock with pulse generator in side view, partly in section.

A shaft 15 of the clockwork is via anchor gear 16, anchor pinion 17 and second wheel 20 driven. One cycle is completed in 60 seconds. Fixed with The second shaft is connected to a metal disk 13 with a slot. You are concentric and axially a second metal disk 14 with a slot opposite. This second disc 14 is firmly connected to the watch frame, but can be rotated by hand. The axis 18 the second disk 14 is fixedly connected to a dial 19 on its upper level has a corresponding division. Around axis 15 of the second shaft the voice coil 11 is placed, concentric to the slotted control disk 13. Over the second slotted disk 14 is the feedback coil 12 as well arranged concentrically and axially. The upper slotted disk is said to be a phase disk called.

The mode of operation of this arrangement is as follows: Through circulation of the second wheel 20, the control disk 13 is rotated. As soon as the slot - the Control disk coincides with the slot of the stationary phase disk, sets the oscillation of the oscillator, and a pulse appears at the output of the downstream Switching stage. The high-frequency oscillation is interrupted again when the continuously rotating control disk 13 has continued to run by the slot width. With the spatially pivotable phase disk 14, it is therefore possible with the clockwork running, to phase the switching time for the slave clocks with a normal time.

If, when starting a battery clock as the master clock, when the slave clocks continue to jump, it is found that there is a difference compared to normal time, for example -I-17 seconds, then only the externally accessible phase disk 14 needs to be turned backwards by 17 seconds to also the next impulse to invest the right amount of time. The slave clocks can therefore jump to the next after 43 seconds. A minus difference can also be compensated for in the same simple manner.

In Fig. 2 is, for example, a constructive solution to the idea of the invention shown.

The rectangle 21 on the left represents the housing of the battery clockwork The dash-dotted axis 22 goes through the hour and minute hands on the right 23, 24 corresponding to Put on tubes or hollow shafts are. The pointers lie in front of the plane of the dial shown in section 25. Above the axis 22 of the movement and between the case and the dial the two coils 26, 27 of the high-frequency circuit are arranged. Simple means of support hold them so that they are concentrically facing each other. The left-lying coil surrounds the seconds shaft 28 emerging from the movement, perpendicular to the axis the second shaft 28, the two slotted disks 29 and 30 are arranged, namely on the left the control disk 29, which, driven by the seconds wheel, one revolution completes in 60 seconds. On the right is the phase disk 30, rigidly connected to a dial 31 which is embedded in the plane of the dial. In a support plate is a corresponding spacer for the phase disk and dial rotatably mounted. Both discs can be rotated from the dial, e.g. B. by means of a screwdriver. The second coil 27 is located around the axis of the phase disk 30 placed, fixedly connected to the carrier means. The distance between the two Head level is 2 to 5 mm and is related to the mode of action of the switching time completely uncritical. Differences of 1 to 2 mm only change the proportions to a negligible extent Way. This is important for manufacturing.

Claims (7)

Claims: 1. Master clock, in which pulses to be emitted are generated by controlling a high frequency by a slotted disk arranged on a clockwork shaft, characterized in that a further slotted disk (14) parallel to the slotted disk (13) of the clockwork shaft (15) - optionally is arranged rotatably, which allows control of the high frequency only in the same position of the openings in both disks (13, 14). 2. Master clock according to claim 1, characterized in that the further, by its position, the phase the control insert determining the slotted disc (14) contact-free and concentric to the other slotted disc (13) is arranged. 3. Master clock according to claim 1 and 2, characterized in that the axes of two coils (11, 12), between which high-frequency vibrations are transmitted, coincide geometrically with the clockwork shaft (15) and the bearing axis (18) of the further slotted disc (14) . 4. Master clock according to claim 1 and 2, characterized in that suitable pole-changing minute pulses are derived directly from the onset of the high-frequency oscillation at the same position of the openings of both discs (13, 14) via suitable switching stages for switching slave clocks. 5. Master clock according to claim 4, characterized in that for generating pole-changing minute pulses a polarized electromagnetic relay or an electronic relay is used will. 6. master clock according to claim 4, characterized in that for determining the Duration of a pulse a monostable flip-flop is used, which the pulse duration regardless of the width of the slot and the length of time it has passed through power. 7. master clock according to claim 1 and 2, characterized in that the further adjustable slotted disc mechanically rigid with one lying in the plane of the dial Dial (19) is coupled. B. master clock according to claim 7, characterized in that that the further slotted disc (14) has several angularly offset openings, to enable the generation of several impulses within one minute. Into consideration Printed publications: Swiss Patent No. 345 831; french Patent Nos. 1,187,982, 1,200,353; USA: Patent No. 2,829,324; Siemens magazine, 1951, issue 1, pp. 41 to 49.