DE1548036C - Clockwork with a frequency-dependent controllable main and an auxiliary antenna system fed by the DC voltage source serving as a power reserve - Google Patents

Description

now drives the other drive shaft W _{5 of} the differential Dl at the same speed as the synchronous motor 53 had previously driven _{the shaft 4.} This changes nothing for the output shaft W ₆ and the correct pulses are still given to the slave clock line NU. If the movement is to be adjusted forwards or backwards by hand, only one of the buttons T ₁ , T _{9 has} to be pressed. In the former case, when the button T _{1 is} pressed, the entire drive for the differential D 2 is omitted and the clockwork is corrected exactly at the time at which the button T _{1 was} opened.

If, on the other hand, the button T _{2 is} pressed, the output shaft W _{6 runs} at double speed, that is to say at one revolution per minute, since both shafts W ₄ , W _{5 are driven} at one revolution per minute. But this has two polarized pulses through the cam N ₁ and the pole changeover switch P so that, for. B. the slave clocks NU are advanced by 2 minutes within two minutes. Of course, the shaft W _{5 can,} if necessary, also be driven more quickly by switching and thus the slave clocks NU can be advanced more quickly.

The differential D 1 finally enables an automatic readjustment of the movement. Via the transmission with gears R ₃ to R ₅ , the cam disks N ₂ , N ₃ are driven differently so that when the clock is correct, exactly at 12 o'clock the two cam disks N ₂ and N ₃ indicate the minutes or Hour contact m, h close and thus the relay./! let it respond via its winding / ^. If, however, the Central European time pulse (CET) comes at the same time, relay B also picks up via its winding B ₁ and the simultaneous response of these two relays means that, because of the open normally closed contacts a ₂ , b _9, none of the relay A. or B remains excited. The clock works correctly, so it cannot be adjusted either forward or backward. On the other hand is the movement from, the minute and hour contact are m, hours before the arrival of the Central European time pulse (CET) is closed and the relay A takes over its winding A ₁ and holds over the closed rest contact b, and its now also closed contact a _x via winding A ₂ until further notice. Via its changeover _{contact a 3} , it connects synchronous motor 51 to NetziV and this drives second differential D 1 in a timely manner as long as contact ö ₃ remains flipped . With this, the button T _{1 is} opened immediately via the output shaft W _{3 of} the differential D 1 and the transmission R ₁ , R ₂ , but this remains irrelevant because of the parallel and now also closed contact a _t. Only after the arrival of the Central European time pulse CET does relay B pull in via its winding B ₁ and, with its contact b _2, interrupt the holding circuit for relay A, which opens its contact O ₄ and thus stops synchronous motor 51.

ίο The difference by which the clockwork advances is stored in the differential D1. Now the transmission R ₁ , R ₂ had already opened the button T ₁ and thus the clockwork is stopped for a correspondingly long time after the contact a _{4 has opened} until the

Output shaft W _{3 of} the differential Dl has returned to its rest position.

For this purpose, the synchronous motor 52 is closed via the switchover contact a _3, which has dropped out again, and that of the output shaft PF _{3 of} the differential D 1

Normally open contact r, ^{1 driven} for the same amount of time as it was previously driven by synchronous motor 51.

If, instead, the Central European time pulse (CET) comes before the clockwork is exactly at 12 o'clock, relay B picks up via winding B ₁ and holds itself through its self-holding contact b ₁ and its winding B ₂ until further notice but via the changeover contact b _3, the differential Dl from the synchronous motor 52 for the difference between the central European time pulse CET and the moment in which both contacts m and h are closed by the cams N ₂ , N ₃ , are adjusted in the opposite direction than before. The key Γ, is closed immediately by the output shaft W _{3 of} the differential D 1, but this remains irrelevant because the normally closed contact b _{i is} still open. Only when the relay A picks up and throws off the relay B via its contact a ₂ , the direct current motor G is started via the normally _{closed contact O 4} and the closed button T ₂ and now drives the shaft W ₅ by the same time difference that was previously between the means -European time impulse and the actual position of the clockwork existed. The clock is therefore advanced by this time difference. As the changeover contact b _{3 drops out} , the contact r ₂ ² closed by the output shaft W _{3 of} the differential gear D 1 now drives the synchronous motor 51, the output shaft W _{2 of} the differential D1 is now also brought back to the rest position in good time, and this is also the case presented the movement itself.

1 sheet of drawings

Claims (5)

1 ' . ■ ■ '■■■: 2, In the latter case, however, the impulses were very patent claims: inadequate, and the individual slave clocks could then be different due to mutilated impulses 1. Movement to be readjusted with a main and an auxiliary · what to disassembling, drive system, with the former frequenzabhän- ^c gape the display of the individual clocks lead gig is controllable and its drive energy via. could. - A monitoring switch that consists of a rotary- The "invention is based on the""task _: a constant-number-regulated direct current motor or preferably a clockwork that can be driven from a network with a likewise via an alternating current generation with a, simple, but ... good one. Power reserve to the gate-drivable, frequency-dependent controllable io, which avoids the above-mentioned disadvantages of a drive system existing auxiliary drive system; expensive frequency generator or poor coupling of the DC voltage properties serving as power reserve and which continues to switch off with the power source, thus distinguishing simple means with good adjustment that allows through the self-locking reaching exact readjusting pulses without additional main and also self-locking auxiliary 15 borrowed effort. drive system (51, G) in each case one of the two. According to the invention, this is the case with a clockwork • Drive shafts (W ₄ , W ₅ ) of a differential or _with a main and an auxiliary drive system there- Planetary gear (D 2) can be driven and achieved by that through the self-locking main the output shaft (W ₆₎ nd means of a _U which also correspond self-locking auxiliary drive system appropriately designed cam disk (N ₁ ) pulse 20 each one of the two drive shafts of a differential switch (P) can be driven to deliver pulses to secondary or planetary gears, and clocks (NU) can be operated. through its output shaft by means of a corresponding 2. Clockwork according to claim 1, characterized in that the cam disk pulse switch is characterized in that the transmission ratios of the _ZU r delivery of pulses to slave clocks can be actuated differential or planetary gear and the reversing 25. speed of rotation of the two drive systems By switching on both systems (51, G) at the same time, the outputs, especially through the much faster drive shaft (W ₆ ) with one-sided drive, a drive of the auxiliary drive system, the clockwork runs halfway and with a double-sided drive a whole ■ then correspondingly faster and can thus be carried out without revolutions per minute. '30 truncated impulses simulated in a simple manner 3. Clockwork according to claim 1 or 2, thereby. in that the cam disc (N ₁₎ in I _n a further embodiment of the invention can Connection with a pole reversing switch (P) at ■ ·. the gear ratios of the differential resp. one revolution of the output shaft (W ₆ ) two planetary gears and the revolution speed Emit pulses of alternating polarity. 35 speed of the two drive systems can be selected so that 4. Movement according to claim 1, 2 or 3, that the output shaft is a one-sided drive characterized in that the clockwork executes rotation per minute by half and with double-sided drive a whole at the same time switching on both drive systems. Finally, in (51, G) is conceivable around the time difference in which the cam disk of the pole turning - both systems are switched on. 40 switches for one revolution of the output shaft two 5. Movement according to claim 1 or the following,, / impulses of alternating polarity.; ■;
characterized in that a comparator "The invention is explained in more detail by switching a direction the positive or negative difference to the embodiment shown in the drawing, a time standard, for example the Central European., .- .. · .. '· ■ '. Time signal, notes and in a memory entry. 45 via the switch Sch _v Sch., The system is connected to the direction (Dl), which in turn connects the NetziV clockwork or the DC voltage source Q in order to make the corresponding · amount up or down and thus ready for use. Through the represents. Mains frequency is thus immediately the. Synchronous motor '^{; v} ·' ■ '■' ■■ ^? "53 driven while" the DC motor G 50 through the open normally closed contact c of the voltage - Monitoring relay C simultaneously from the DC voltage - .. ...., ... source Q is switched off. V ... .- .. .... The synchronous motor 5 3 thus drives one ■ '"■■■' ■:. Drive shaft W _{4 of} the differential D 2 in time with It is already known to drive a clockwork with a constant speed, the overfrequency being driven and, in the event of a network failure, the setting ratios were chosen so that the movement was connected to a constant speed controlled DC output shaft W ₀ via the gears /? . ,, R ₆ drives the current motor via a voltage monitor to connect camshaft N ₁ because of the self-locking dense or also the synchronous motor from the DC voltage source serving as a gear current motor G with half a revolution per mini reserve then drives over 60 minutes. The slave clocks NU are thus given a frequency generator to drive them. However, in the first case, the pole change switch P and the cam disk N _1, the clutches between the at least one pulse of alternating polarity, cause difficulties for the drive systems, and the fre- and are thereby switched on in a timely manner,
On the other hand, frequency generators make the gear. If the mains fails, the synchronous motor reserve remains expensive. In addition, 65 53 had to stand for readjustment and at the same time the normally closed contact development of such clockworks special pulse generators of the voltage monitoring relay C and switches are provided, if not with simple so that the DC motor G on, which should be done by hand with a pushbutton readjustment. corresponding speed constant holding device