DE889728C - Electrical slave clock system - Google Patents

Description

Electrical slave clock system The invention relates to a through a master clock via a relay device switchable electrical slave clock system and aims to provide such in theaters, on sports fields or the like to the current display of the remaining time for a game break or also to use for the game or the performance itself. For this purpose is according to the invention those relays of the clock system that send the incremental pulses for the slave clocks control, one from the impulses of the master clock as well as from a hand-controlled one Encoder is connected upstream with a step-by-step switch that generates the incremental pulses counts for the slave clock system and with it on the desired playing time or break time manually adjustable transmitter works together so that the slave clocks by one Relay pulse generator first set to the desired time and then can continue to be operated by the master clock. When the preset time has elapsed can then by the control circuit an acoustic or visual sign, z. B. Pause signals are given automatically.

Further details of the invention are described below using an exemplary embodiment, the circuit diagram of which is shown in the drawing. In this, on the right of the dash-dotted line ii, the pause transmitter with the associated signaling devices is shown, and on the left of this line, the relay device for controlling the pause timer loop PU indicated at the bottom left. The entire system is fed from battery B, to which the master clock is also connected via the circuit HU . The normal slave clock loop , which is also connected to this master clock and in which the relay L is located, is denoted by NU. This thus receives minute current pulses from the master clock in the usual way. The one to be operated by hand. Encoder PK is a push-button strip encoder with push-button contacts PKso, PKSO, PK4o etc., each for setting a playing time or pause time of 60, 50, 40 etc. minutes. to serve. The lower contacts of the key strip dispenser are single, while the three upper contacts are double, namely the double contacts PKso2, PK502, PK4.2 are shown below the main keys for the sake of clarity. If one of the PK keys is pressed, the contact FK above it should also be activated.

In addition to the mentioned pushbutton switches, there are two more in the encoder Push-button contacts T1 and T2 are provided, which are actuated together and their meaning is evident from the description below.

To set a certain pause duration on the slave clocks of the PU loop, the associated button is pressed in the transmitter, namely, for example, the PK4o button should be pressed for a 40-minute pause. At the same time the contact FK is closed so that the relay K responds via the contacts T2 and t2. The latter is located directly on the left at the - pole of battery B, while contact FK is connected to the --- pole of the battery. Contact k2 then switches relay T and contact k1 switches relay F on. These two relays are also on the left-hand side directly at the - pole of the battery B and on the other hand are connected to the ---- pole of the battery via the contacts k2 or P1, fl, k1, t3 and T1. The F-relay holds itself in the following time via its contact f, and brings the relay R in the following circuit via its contact f 2: --Pol, R, f2, the contacts i, 3, 4, Ti operated by the master clock , --- Pol. Via the contact y1 of the R relay, the rotary magnet D of a rotary selector with four contact banks b1 to b4 covered by sliding arms a1 to a4 now attracts. This advances the selector contacts by one step, but at the same time short-circuits the relay R by means of its relay contact d, so that the latter drops out and again interrupts contact r1 in the circuit of the rotary magnet. As a result, the contact d opens, and the relay R responds again and gives another surge of current to the rotary magnet winding D, etc. The stepping mechanism is switched accordingly and alternately brings one of the two relays A and B to energize, namely relay A by closing of the circuit --Pol, A, contacts 2, 4, 6 etc. of the rotary selector, u3, f3, TI, ---- Pole and the relay B in the circuit --Pol, B, contacts 3, 5, 7 etc. . of the rotary magnet, u3, f91 TI, + -Pol. The clocks in the pause clock loop PU are switched on via the contacts a and b of the relays A and B , which are alternately actuated in this way. If the step-by-step switch reaches contact 21, then the relay P picks up, namely its circuit leads from the - pole, P, u1, arm a3, contact 2i, button PK4o to the + pole. The relay contact P1 causes the relay F to drop out and separates the rotary magnet D by means of contact P2, so that the stepping mechanism stops. With this the pause clocks are all put forward by 20 minutes, so that their minute hands are the desired 40 minutes before the next following hour. Furthermore, the relay E in the circuit -Pol, E, ei, P3, s3, T1, + -Pol is excited via the relay contact P3, which holds itself through its contact ei.

In the following time, ie in the pause time of 40 minutes that now begins, the pause clocks are incremented every minute by the stepping mechanism, the minute current pulses for exciting the rotary magnet D being controlled by the relay L in the slave clock circuit. This relay L picks up with every current surge from the clock loop and briefly closes the circuit of the rotary magnet D by means of contact h, which runs from the - pole via D, 1l, s1, f4 and T1 to the + pole. For the relays A and B, the circuit of which is coming from the - [- pole via the even or odd steps of the stepping mechanism and its contact arm a1 as well as the contacts ü2, 1 "and T1 to the + pole, the pause clocks now switch every minute . When the contact arm a1 reaches contact 31, the F-relay picks up via --Pol, F, PI., F1, contact 31, a1, u3, l2, T1, --- Pol. Then relay F is held in the manner indicated above again via its contact f 1. The relay R now, in cooperation with the rotary magnet relay D, again gives impulses to the stepping mechanism, so that it advances in quick succession until the relay U responds when contact 34 is reached via - -Pol, U, contact 34, a2-arm, a43, f3, T1, --- Pol. The relay U remains in the following time via its contact ac2 in the --Pol, U, u2, TI, + -Pol circuit On contact o the relay P picks up via --Pol, P, u1, contact o, button PK402, t3, TI, + -Pol the stepping mechanism is stopped in the manner already indicated above, and the clocks are subsequently also incremented by the minute in the manner indicated above. When contact 30 is reached, relay F then picks up via --Pol, F, P1, f1, contact 30, a2 arm, U., 12, Ti, + -Pol and then holds itself again via its contact f1. As a result of the closing of contact f 2, the step-by-step switch receives a few current surges in quick succession until contact 34 is reached, via which the relay U via the circuit --Pol, U, contact 34, a2-arm, u3 .. f2, TI, --Pol is short-circuited and consequently drops. The switchover of the stepping mechanism is thus canceled. Contact arm a1 is on contact o, so that the relay P in the circuit --Pol, P, u1, a3 arm, contact o, t3, TI, + -Pol picks up and stops the selector in the manner described above. The pause of 40 minutes has now expired, and it is excited via the contact u3 of the U relay of the relay S via --Pol, S, contact o, ai arm, u3, l2, T1, + -Pol. The relay S then separates the circuit of the rotary magnet D through its contact s1 and switches on the pause lamp PS through its contact s2, namely in the following circuit --Pol, PS, s2, t3, TI, --Pol. The pause closing signal can now be given.

If, however, it turns out that the break was set too short and z. B. If a further io minutes are necessary, the PK io button is pressed; as a result, the stepping mechanism is set in motion again in the manner described at the beginning, which advances the clocks via relays A and B. In this case, the clocks must be put forward by a total of 50 minutes, after 30 minutes the above-described switching of the stepping mechanism must take place again via the relay U and then the rotary magnet up to the Switch contact 2o on, where it is stopped, from then on, during the following ro minutes, the relay L of the slave clock loop NU is switched on every minute.

After the pause tail lamp PS lights up, the end button T1 is pressed, thereby disconnecting the -; - pole and bringing the system to a standstill. At the same time, when the final key T1 is pressed, the previously pressed key, e.g. B. the pause button PK4o triggered. T2 is activated together with T1, so that the PW break alarms are switched on by closing the circuit --Pol, PW, T2, FK, --- Pol as long as the T1, T2 button is pressed.

It should also be mentioned that the pause time set on the pause clocks can also be changed while these clocks are running. For this purpose, the key is used for the pause that is still necessary, e.g. B. the button PK2o, pressed and thereby stimulated the stepping mechanism again; this switches the clocks of the pause clock loop PU on in quick succession to the new pause time, during which the clocks are then again controlled every minute by the relay L of the slave clock loop.

Claims (2)

PATIi \ APPLICATION: e.g. Electrical slave clock system, which can be controlled by a master clock via a relay device, characterized in that the relays (A, B), which control the incremental pulses for the slave clocks, are influenced by the pulses from the master clock as well as by a manually controlled transmitter (PK) Stepping mechanism (D, a1 to a4, b1 to b4) is connected upstream for counting the incremental pulses, so that the slave clocks by the hand-controlled encoder on an adjustable time on this, z. B. game time or pause time, can be preset and then switched through the master clock. 2. Electrical slave clock system according to claim z, characterized in that the desired _ period of time, z. B. playing time or pause time, can be preset on a key strip transmitter (PK), which, together with the contacts of the stepping mechanism via relays, controls a pulse transmitter relay (R) for the stepping mechanism until it assumes the position corresponding to the activated transmitter contact and thus one of the desired Duration has given the corresponding number of incremental pulses via the control relays (A, B) into the slave clock loop.