DE447238C - Clock system - Google Patents

Description

Clock system. The invention relates to a clock system with an exchangeable stronehetriel), in which the slave clocks are driven by asynchronous motors. The novelty the invention resides in the special device for securing the synchronous gear of the slave clocks, by the current supplied to them when the neck is closed The master clock and the secondary clock are automatically influenced in such a way that both the master clock as well as the slave clocks can be brought back to the correct speed.

An exemplary embodiment is shown schematically in the drawing: 'Fig. I is an overall circuit diagram, Fig. 2 is a diagram of the drive motor for the main clock and the slave clocks, Fig. 3 is a diagram of a part of Fig. 2 on a larger scale,.

Fig. 4 shows a similar representation of the main chronograph and The parts connecting the master clock together with the switches operated by them, Fig: 5 is a diagram of the transmission according to Fig. 4 seen from the right, Fig. 6 a time diagram of the working periods the control switch of the slave clocks and the master synchronizing clock.

A non-illustrated “double current duel” is connected by conductors i and 2 (Fig. I) to the end terminals 3 and 4 of an autotransformer 5 with an adjustable intermediate tap 6. A main circuit 7 for a master clock 8 and a plurality of slave clocks 9 has a conductor ii and a conductor 1 2 emanating from cler 3 of the autotransformer 5. The latter can either be mechanically connected with your Anzaliftnigslltnil <t 6 or with the Kleinnie-I of the transformer 5. tied switches-r3; -i4- and conductors 15, 16 get connected. A drive motor 17 is for each cler benuhr en g and the master clock 8 in the Guide provided according to Fig. 2, with a Voltage coil 18 and a regulating coil icg on a scrolled IZern 2i so attached are, (let their force fields in far eyes- look about go electrical degrees except l'liase are. Between .den, coils i8 and ig is a Gap 22, in (learn- a Scllcilie 23 lies. This is rotatable on a vertical shaft 24 and is equipped with the usual 25 hands tied, of which only a snail's handle) is posed. The disk 23 allows 7t1 the winding lung 18 and 19 so, dalt in her Wirhelströnie induced «-ground and thereby a rotating moment arises that the disk 23 to rotate seeks. A resistor 26 and a second rel; el- @pule 27 can also be connected to your core 21 aiiZc- be good. According to the representation @ ciiiüli Fig. I are the terminals of the voltage coil 18 through conductor 28,: 29 with the terminals of the Control coil ig connected in such a way that the the same in close connection can; the resistor 26 is in the conductor 28 switched on. 'The electrical constants of the coils 18 and 19 are so that the disk 23 moves with it turns five to ten T-jiiidrelitiii "eii per minute, what a normal Ulli'werksganse speaks. The disc 2,) can be in front of a undesignated small i iltntiii #, turn, so that 111a11 the speed of the clockwork easily through observation; (Go on by-it-one Mark 31 at the C) ltnnng can contortillierrn. 1) 1e I) rch @ e @ chwin @ li @@ heit #ler disk 23 can be driven by a damping magnet,; 2 are regulated, the hollow 33 of which can be adjusted radially via the disk 23 and can be locked in any desired position. Ground the terminals of the voltage coil i (K l; iintien connected by conductors 3.1, 35 to the conductors 12 and 11 of the main 7.

Should there be an interruption in the power supply to the transformer, or should the voltage or frequency of the alternating current fluctuate, resulting in a deviation the secondary ears 9 result in the main clock 8 from running normally, so aids are provided according to (l (! i- invention, and relatively automatically) The pointers of the slave clocks and the Turn the master clock forward to the correct position. For this purpose there is an associated comparison clock 36 before 'esehen, the driven shaft 37 in a frame 38 (A1) b. q.) stored is.

A member 39, which is rigidly attached to the comparison clock shaft 37, has in a surface 41 (Fig. 5) an insulating sleeve 42 with slip rings 43, 44, which are used to electrically connect relatively movable contacts 45, 4.6 with stationary brushes (not shown) associate. The contact 45 is rigidly attached to the surface 4.1 of the part 39 next (to the outer circumference thereof. The associated movable contact 46 is attached to one end of an arm 47 which is hinged to a pin 48 projecting from the surface 4i. One with the arm 47 cooperating spring 4.9 brings about a rapid closure and interruption between the contacts 4.5 and 16. The arm 47 has a slot 51 for receiving one end 52, a pin 53, the other end 54 of which protrudes through a slot 55 in parts 39 and is rigid is finitely connected to an arm 56 which is articulated at 57. A spring 58 seeks to place an end part 59 against a stop 61. In this position, the contacts 45 and 4.6 are out of engagement (FIGS. 4 and 5) Moved from the position according to Fig. 4, the movable contact 4.6 is brought into engagement with the contact 45 against the force of the spring 58.

The following is provided for the purpose of opening the contacts 45 and 46 l) when calibrating the master clock 8 from synchronism with the comparison clock 36. A drive shaft 62 of the master clock 8 is mounted in the support 38 and connected by a gear 63 with a gear member 6.I, which sits loosely at the end of the comparison shaft 37 between the bearing 38 and the part 39. The term 6.1 has oppositely protruding :; Irine 65 and 66. Arm 66 has a counterpart Viclit, and Ann (15 has a transverse attachment 67 with a latch 68. This is arranged so that it usually grips the shoulder 59 of arm 56. so that the I #, - oiital; te45 and 46 are in engagement, while on the other hand the shoulder 59 of the arm 56 can advance in front of the pawl 68 if the master clock deviates from synchronicity with the comparison clock 36. This only occurs, however, if the master clock is relative to the Comparison ear and the pawl 68 is behind the shoulder 59 of the arm 56. The normal engagement between the pawl 68 and the shoulder 59, while the master clock and the comparison clock are in sync can be caused by the fact that the control coil 19 the master clock 8 trains so that the latter runs a little faster than the comparison clock 36.

As FIG. I shows, the contact 45 is connected to the terminal 3 of the transformer 5 by a conductor 69 and a conductor 70. The contact .46 is connected to the tap 6 by a conductor 71 and a conductor 15. The conductor 71 contains a drive winding 72 for the mechanical switches 13 and 14, which are thus adjustable from their normal positions shown.

If the master clock 8 and the comparison clock 36 are in synchronism, the pawl 68 is in engagement with the shoulder 59 of the lever 56, whereby the engagement of the contact 46 with (lein contact [5 is thrown Small 3 of the transformer 5 through the conductors 70 and 69, the contacts 45 and 46, the conductor 1, the drive winding 72 and the conductor i, to the tap 6. The effect of the supply of the drive winding 72 is that the switch 13 is closed and the switch 1.4 is opened, whereby the conductor 12 of the power circuit 7 can be connected to .the tap 6. Thus, currents of relatively low voltage are usually supplied to the main circuit 7; the voltage is just enough to run the Ncl) enuhren 9 and the master clock 8 to keep synchronism with the comparison clock 36.

Should the master clock 8 out of synchro- nism for any reason fall with the comparison clock 36, e.g. B. because of a drop in the transformer 5 supplied voltage, the movement ratio of the successor member 6.4 do not coincide with that of member 39. Hence, the shoulder would be 59 of the arm 56 would not catch the pawl 68 and the pin 53 would be under the force of the spring 58 move the arm 47 so that the contacts .f5 and 46 disengage, whereupon Die Antriebswicl: itu'- 72, (put switches 13 and 14 would be de-energized: Dei switch 13 then opens through Gravity and separates the conductor 12 from Head 15, while the switch 1.1 closes, uni the head 12 with your head 16 to connect. Closing switch 1: I thus causes an increased Voltage the main circuit conductors i i Lind 12 is pressed, which of the full Voltage of the transformer 5 corresponds. The effect of increased tension on the drive motors 17 of the master clock 8 and the slave clocks 9 are located in a faster one Run that continues until the master clock 8 is in synchronism with the comparison clock 36 is. When the original cause of the deviation from synchronism is eliminated is then the contact 46 is held in engagement with the contact 45, and currents The conductors i i and 12 of the main power flow are again of normal voltage 7 delivered.

Synchronism of the slave clocks with the master clock.

The invention also provides devices for the slave clocks 9 in To rotate synchronism with the main synchronization clock8 in the event of a deviation. For this is a synchronizing conductor 73 through relatively movable contacts 74th and 75 of one Relays 76 with movable contacts 77 and 78 of switches 13 arid 14 connected. The cooperating contacts 79 and 81 of switches 13 and 14 are corresponding connected to conductors 15 and 16. The action of the relay 76 can be controlled by switches 82, 83 can be controlled.

The switch 83 has movable contacts 8.4, 85, 86 and can in the Shape according to fig. D. be carried out in which the various contacts on arms 87, 88, 89 are attached and a single joint rod gi in the support 38 is stored. These arms are arranged so that they are against the perimeters of Drive cams 92, 93, 9 ». of the shaft 62.

These parts are designed so that the switch 83 is regularly in At intervals of half an hour, it acts to feed the syncronization conductor 73 to cause when the contacts 85 and 86 are engaged. The feeding period takes ten minutes.

The feeding period is ended in a manner still to be described when the contacts 84, 85 are engaged. The intervals during which the leader 73 is fed, can by the distance in on the circumference of the circle 95 (Fig. 6) being represented. The healing, ancient glimpses of bringing about and closing each interval are preferably precisely licstimnit by a switch 82.

This has movable contacts ( A 97, which can be operated by the master clock 8 at one-minute intervals in the same way as the various contacts of the switch 83.

A drive winding 98 (Fig. I) of the relay 76 has a terminal 99 which is connected to the conductor 70 and the transformer terminal 3 by a conductor ioi with a resistor log. The other terminal 103 of the winding 98 is connected by a conductor 104, the contacts 96 and 97, a conductor loose, the contacts 85, 86 of the switch 83, a conductor loh and conductor 15 with fier tap 6. Assuming (let the contacts 85 and 86 just engaged, then-the drive winding 98 is energized and causes the engagement of the contacts 74, 75 and the corresponding energization of the conductor 73 with a voltage which depends on whether the conductor 12 is connected to the terminal or the tap 6 of the transformer 5. If the master clock 8 and the comparison clock 36 are in synchronism, then the latter connection is present.

Relay 76 also has contacts 107 and 108, the latter of which is mechanically connected to contact 75 such that switch 82, upon initial actuation, can be shunted to energize relay drive winding 98. For this purpose, the contact 107 is connected to four terminals 103 of the drive winding 98, and the contact i o8 is connected to the conductor 15 by a conductor log. It can therefore be seen that the switch 82 has no control over the egg-rererwicl: llin # -98, since the currents run through a circuit that includes the conductor log and the contacts 107 and 108, instead of through a circuit with the conductor 1o6, the Contacts 85, 86, conductor 1o5, switch 82 and conductor io4.

When the conductor 73 has been energized for a period of ten minutes corresponding to the interval nz in Fig. 6, the movable contact 85 is brought into engagement with the movable contact 84 to close a shunt circuit and the relay drive winding 98 around the the conductor io4, the switch 82, conductor 105, contact 8q. ,, 85 and a conductor i 1o encompassing, which runs from the movable contact 84th to the terminal 99 of the drive winding 98. The corresponding deactivation of the drive circuit 98 causes the relay 76 to open and the contacts 7 .. (, 7 5 and 107, 1o8 to be disconnected. The contacts 84 and 85 are then opened and the other contacts of the switch 83 are disengaged held together until the above game is repeated again at the end of twenty minutes. As mentioned, each of the slave clocks has the correcting clock 27, which has enough connections to generate a torque three to four times as great than that of the lzegel, - :: ptile 19. So that the coil 27 can be energized when it is necessary to bring one of the slave clocks 9 into finite synchronicity with the master clock 8, a switch iii is provided, which is operated directly from the Slave clockwork is called and includes a pair of mechanically coupled switch units 112 and 113.

The switch 112 has a movable arin 114 1111t contacts 115 and 116 at the ends which cooperate with contacts 117 and i 18. The desk 113 accordingly has a movable arm 119 with contacts 121, 122, which correspond to interact with contacts 123 and 124. The contacts 117 and 123 can through a conductor 125 are connected to a terminal of the acceleration and Delay coil 27 is running. The other terminal of the latter is through a conductor 126 connected to contacts 124 and 118. The movable contacts' 115, 116 of the switch 112 can be connected by a conductor 127 to your conductor 7 3, and the movable contacts 121, 122 of the switch 113 are connected by conductors 128 your conductor 35 connected.

As Fig. 3 shows, the mechanical design of the switch 112, 113 and its drive similar to switch 83 according to Fig. 4. The drive forms a Row of cams 129 on a minute shaft 131 of each slave clock 9. The shaft rare has a shoulder 132 for cooperation with a pawl 133 such that that a backward movement of the clockwork is avoided, which could occur if the correction coil 27 is energized so that it normal movement of the slave clock 9 delayed.

The above drive device for the switch 112, 113 is designed in such a way that the movable contact arms 114, 115 are held in the position according to FIG. I for an interval of ten minutes, which corresponds to the distance x on the circle 134 in FIG. During the next ten minutes following the interval x, the movable contact arms 114, i 19 are caused to assume a neutral position in which the contacts are disengaged and finally to assume a position in which the contacts 118, 116 and 121, 123, respectively are engaged. The latter period is represented by the distance y on the circle 134 in Fig. 6. After the period y has elapsed, the cams 129 then cause the contact arms r r4, 119 to assume the position according to FIG. R, whereby a play of three successive positions a1) is closed.

Angenomineyi. that the S-holder 112, 113 is in the position according to fig . 117, conductor 1 25, control coil 'a7, conductor 126. Contacts 122, 124, conductor 128 and 35 to conductor ir of the main circuit; , so that currents run through the winding 27 and strengthen the force field. If the switch r r2, 1r3 is brought into a position in which the contacts i T8, i 16 and 12 r, 123 are in engagement, currents are sent through the control coil in such a way that the force field is weakened.

As Fig. 6 shows, the periods of action a and y of the switch are 112 and 1 r3 relative to the excitation period sii of the synchronizing conductor 73 so that when the slave clocks 9 are in synchronism with the master clock 8, the control coil 27 connected to conductor 73 only during the period of no-current of conductor 73 is. But if one of the slave clocks 9 should follow the master clock, then it will overlap the operating period x during which the level coil 27 is connected to the conductor 73 is, the excitation period in, so that the movement of this slave clock accelerates until it is in synchronism with the master clock 8.

If the slave clock 9 goes ahead, then the working period overlaps ,%, of the switch 112, 113 the energization period in the conductor 73, whereby a reverse excitation of the control coil 27 and thus an opposite or retarding Effect on the slave clockwork comes about. So if one of the slave clocks 9 from If synchronism with the main synchronization clock 8 differs, its control coil will be 27 excited by correction currents which bring the two clocks into synchronism.

It should be noted that the corrective action of the winding 27 each - Secondary clock 9 continues to increase when the currents are of relatively high voltage Line 73 is supplied, which occurs when there is a difference in the progress of the master clock 8 and the comparison clock 36 occurs.

Claims (13)

PATENT CLAIMS: r. Clock system with a comparison clock, a master clock and slave clocks with asynchronous motors driven by a main circuit be, thereby 2; el; eilil-r-eichnet that an unintentional disturbance of the normal Energy of this power circuit, which makes the master clock finite from its synchronism the comparison watch would be brought to a Amplification of energy of the X-raft circuit, which causes the master clock and the slave clocks to quickly be brought to synchronism with the comparison clock. 2. Plant according to claim i, characterized in that the master clock has a synchronization switch with the comparison clock cooperates to the main circuit under normal operating conditions keep energized, and which causes an amplification of the energy of the main circuit, when the synchronization with the comparison clock stops. 3. Plant according to claim 2, characterized characterized in that the synchronization switch controls multiple circuits to the main line to be connected to a source of low or high voltage current. 4. Attachment to Claim i, characterized in that the master clock has a successor element (65) and the comparison watch has a driven member (39) with relatively movable contacts (45, 46) is provided, and that the successor member is arranged so that it the Effect of the contact element in the event of a difference in the movement of the clocks. 5. Plant according to claim i, characterized in that a branch circuit with the Slave clock is connected and periodically additional for a certain period of time Power supplies. 6. Plant according to claim 5, characterized in that the duration the time span of the power delivery to the secondary circuit is controlled by the master clock will. 7. Plant according to claim 5 and 6, characterized in that the auxiliary power line Amount of energy supplied by the position of the master clock relative to the comparison clock is controlled. -B. Plant according to claim 5, 6, 7, characterized in that the Slave clock has a device to accelerate and decelerate to relate it to your auxiliary force circles at certain time intervals, in such a way that the slave clock is delayed when it goes ahead, or is accelerated, if she goes after. System according to claim r, characterized in that the master clock controls the excitation of a secondary force circuit during a certain time interval, that the slave clock has a device, do with this and delay devices-related, and that a switch is moved by the clock itself in order to periodically connect the acceleration and to open, to close and to delay device with the secondary force line to reverse. ro. Plant according to claim 9, characterized in that devices (irr, 127) are provided to establish electrical relationships between the acceleration and deceleration device (27) and the plane force line for extended periods, whereby the acceleration and deceleration device is activated if these periods overlap is excited by streams of rectification. i i. Plant after Claim 10, 11, 12, characterized in that the master clock has a switch underneath the control of contact members has to the 'rebenkraftkreis with a power source to connect at certain intervals of certain duration and thereby that of the Increase slave clock delivered power when the master clock is different from its normal Gear should deviate. r2. Plant according to claim i, characterized in that the master clock a device (r4, 15) for increasing the master clock and the slave clock supplied voltage and to increase the power flowing through the main circuit Energy controls, and that this device (14, 15) is brought into effect when the comparison clock and main. clock fall out of synchronicity. - 13. Plant according to one of the preceding claims, characterized in that the drive motor (1;) of the slave clock except for a voltage coil (18) with two control coils (19, 27) is provided for generating a magnetic flux of force that is approximately electrical degrees apart Phase with the flow of force through the tension litiles. so that they accelerate or decelerate the movement of the gear, depending on whether the gear has deviated from normal conditions. ,