DE694536C - Device for the control of minute and half-minute jumping slave clocks - Google Patents

Description

Device for controlling every minute and half minute jumping Slave clocks In electrical clock systems it is sometimes desirable to have one Master clock controlled slave clocks for. Partly every minute, the other part every half minute to advance. Such a requirement exists z. B. in Uhmenanlagen for, the Railway operation, in which for the more important clocks on: the platforms, etc. the minute A jump is sometimes not enough.

The subject of the invention is a device that allows the control of minute and half-minute jumping slave clocks from a common main eye. A device is known in which both slave seconds and slave minute clocks are controlled by a common master clock. The secondary clocks are activated by a relay that responds to the second. advanced, while the switching of the minute slave clocks takes place by means of a further relay that responds every minute and a switchgear controlled by this .with several sets of contacts. Apart from .dem, considerable expenditure on switching means is in this device, a whole number of. Contact is required and can easily give rise to disturbances. In contrast, the invention provides a much simpler device for controlling slave clocks that jump every minute and every half minute, in which contact points are largely avoided. According to the invention, a contact mechanism "is provided for this purpose, which is controlled by a polarized magnet from the main clock in such a way that it alternates at half-minute intervals in a preparatory position and in a position which brings about the contact for the secondary clocks that jump every minute. To @" For this purpose, the sequence of the contact drive is controlled by the armature of the polarized magnet, the polarity of which is reversed every half minute, whereby the contact drive moves one after the other from one blocking position to my second blocking position, which is followed by a half turn after reversing the polarity of the magnet ,:, during which the contact is made for the. Contact mechanism with two offset by 180 ° See locking links for two locking layers each = @ 7.

The invention is illustrated below with reference to the drawing of an example Execution, form described.

Think of a master clock connected to terminals a, b , which generates currents polarized every half minute. As a result of these current surges, the slave clocks N30 connected to the pair of lines c, d are incremented, the pointers of which accordingly jump every half minute. In order to be able to connect slave clocks for .minutlich jumping pointers to the same master clock, a polarized magnet i is connected to the clamps,, a, b , the armature 2 of which cooperates with the arm 3 of the contact drive according to the invention. The contact drive consists of a disc 4 fixedly arranged on the axis 5, on one side of which, offset by 180 °, two pins 7, 8 and 7 ', 8' are attached offset from one another. These pins cooperate with the pin 6 on the arm 3 in the manner explained in more detail below. On the same, through one not shown. External drive set in rotation axis 5 sits a disk 9 with a cam io. As it rotates, this cam io actuates the contact springs ii and 12 one after the other, which are lifted off the bent ends i4 'and 14 "of the spring 14. The spring 13 sliding on a shoulder of the disk 9 causes the battery B to have positive potential connected via the disk to springs ii or 12 and thereby a circuit via the slave clocks N60 connected to the line pair e, f and via the spring that is not actuated by both of them, as well as via the middle spring 14 located on the negative pole of the battery In the position shown with the wires, the pin 7 lies against the pin 6 of the armature, so that the contact; drive is prevented from running off and thereby releases the disk 4. Meanwhile, the process is stopped again immediately by the pin 8 without any contact being made by means of the cams 10. The contact drive is again blocked, but is now open for d he contact prepared. This takes place when the pin 6 is lifted again the next time the magnet is reversed. This removes the block and allows the contact drive to expire until after .eyer half turn the pin 7 'against j-pin 6. The disc 4 is located l @ lx, da: nn again in the first locked position. During half a turn of the drive, the spring 12 was lifted off the spring i4 "and a circuit for the slave clocks N60 was closed. After two more strokes of the master clock, the spring ii is lifted in the same way from the spring 14 ', resulting in the current circuit for the slave clocks in reverse direction.

Claims (6)

PATENT CLAIMS: i. Device for controlling minute and half minute jumping slave clocks from a common master clock, identified by a contact drive (4, 9), .das from a master clock by a polarized magnet (i) is controlled in such a way that it alternates at half-minute intervals in @ aone preparation and in a contact for the minute jumpers Slave clocks causing position arrives. 2. Device according to claim i, characterized characterized in that the armature (2, 3) of the polarized magnet (i) den. sequence of the contact drive mastered. 3. Einriclrtun "g according to claim i and 2,, thereby .Identified that this was done by deal. Anchor (2, 3) on the drain prevented contact drive (4) after turning the magnet (i) without making contact for the slave clocks in a also passes through the anchor, dependent second blocking position (pin 8 or 8 '). 4. Device according to claim 3, characterized in that the contact drive (4) after another Urimpol: ung the magnet (i) released for half a turn -will, in which, there is a power supply for the slave clocks. 5. Set up after Claims i to 4, characterized in that the contact running gear (4) has two rotations at 180 ° has offset locking members (7, 8 or 7 ', 8') for two locking layers each. 6. Establishment according to claims i to 5, characterized in that the contact drive (4, 9, io) at its half-turn, the slave clocks alternate the current in different Directions.