DE1807979U - CONTROL DEVICE FOR SIZES REPRESENTED BY ELECTRICAL PULSE SEQUENCES. - Google Patents

Description

Siemens J »Halske Munich 2,

Aktiengesellschaft fittelsbacherplatz 2

PA 55/2055 Gm.

AZ: S 15 875 / 21.c Sm

January 21, 1960 Gra / Hid

Control device for by electric Pulse sequences that can be represented

The firing concerns an after-run regulation of “Lectric quantities that are converted into pulse trains let »The impulses of the ÖrÖSen to be compared are thereby in an electrical device were borrowed, and one size will be determined Ibwiehuiig: updated accordingly. In the case of a well-known such maintenance facility that performs the task is based on the frequency of a? / echselstrOm · - ,, - ■ adapt the network to the frequency of a normal clock, iii-pi a differential gear used as a complementary device « Until both to be compared

M 55/2035 & m - 2 - ..

the reacted in speeds and drive a Son ever -usii ^ ad the differential gear "With the difference of the rotational speeds indicative planetary gear is connected to a contact arm which in dependence on the screening of the differential (overfeed or lacheilung): one of & wei contacts switches and the drive Stellan 'for changing the letzfrequenz in the corresponding calibration Tung to respond "Here mmB AEIE movement brings the contact arm are limited by Anschlüge, and there can be only small =

Mb are also known arrangements for the summation of impulses, which with stepping mechanism ^ !! aribeitspsu., lack Srreionen of a certain pulse sum is.: '* "' - ^: '■ here, for example, a switching or control process" is triggered. With an electrical clock system with; A master clock and several line clocks are limited. ¥ ön _: the impulses given by the master clock and the I »| i'uiie - a liiiiiiiiäuhr old help from Sohrittechsltwerfceh .% Μ ^; sgefcliern: « 'mum in the line. With the secondary clocks ..: eiilp. '^;'. If a fault occurs, the stepping mechanism assigned to the line clocks liil ^ * stops and displays an opposite-: iler : & em stepping mechanism of the master clock growing ^{yi: r; :: ;; ::} "As long as such a difference exists:

speaks to eifi Helais, who is a driving force behind the
line of the secondary clocks switches, "is activated ₅
as soon as the fault in the slave clock line has been eliminated
Through.-, different pulse generators are additionally supplied to the line clocks © pulses until they reach the opposite
exercises hauithräääääääste stilting obscurations
With this well-known facility you can
laehstelleB only take place in one switching direction, and
even this are relatively expensive
en required. ,,.

laughing, in which the innovation is based liegeadeii ^Eegel-:; . ■ "" ■ * "means the pulses act of awei mx y®T: gl iQhem -> _-: ■ on each 'one Schrittscfealtwark a 1 ^ §MImw $ _^': M: .ägl" - known design), but sini ""> here: gsjiaß:; i «r firing the two stepping mechanisms ^ V: between adjacent contacts switched

in potentiometer with an äew ■ Iphl> ier '■■■' .:: eiitaprtchÄien number of tappingBetelleii; - uiigeifanaelt, and the potentiometer circuits or,
if necessary, the switching arms of the. Step after age ■■ '■ .. are such z. 1. over long-distance lines under control
an electrical voltage source connected to one another,.:; IAJ &_u:; the botentiometer circuit, the one step-by-step or »on its switching arm one of the position sub-

Pi 55/2035 Gm. -4 ~

difference of the two stepping mechanisms according to (JrOBe and ■ sighting corresponding voltage vulnerable lot "means diener voltage is because in the example Mt aid. a polarized Heiais an alloyed ~ for ÖIE na citzuführende öröie influenced Using '$ &r' apparatus according to the Heuerung, the different the most kind of sizes via the interface switchgear.

become »when these sizes in EliS ~

be implemented en mimes "Btf '^" ■'..; Laasen adch example, the frequencies of electrical voltages or mass flows of solids fllesigfeeiten and Cr ate compare .mti & T Ferwendang appropriate RegeleInri'-ohturige """adjust it to a gewünscntes -ferMltnis “Ms fii? S? S? S? S? S? S? S? S? S? S? S? S? Equal flow rates are measured with the help of the B th jMeMgenzäfaler, who at the same time all

trained so that they can for example -Covering a certain angle of rotation emit an impulse ο -

In the hand ier 'drawing, there are two examples of the firing. The example of the embodiment according to Fig. 1 concerns _: the task of a synchronous frequency fluctuating over a long period of time

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machine to a horma given by a clock ν or: J,: ~ fxetuemz zuegeln »Mg ° 2 shows a variant form of jtesfMhruiigsform for the interconnection of the b # li | pl · pQ / tent _: |; piiieter« example of the example neon, jig » _: J _{:: there} is the requirement, the firing 1 eistyrng: eipss boiler, α * η »the listed fuel me & gß, _f Α & τ) _x „ each: for ge b.eiien amount äes feed water & ,: attztt * _lV Bie feed water amount is the nier ^ m -: * example primarily of a different size? of the required leave ₅

fig «1 the syncnron generator 1, driven by a direct current motor |. ,, ...,: <, feeds an alternating current network, to § & s an in.zaiii of syiichron motors 10 to-- :. are closed. Can These motors drive, for example, the paper feed of registering measuring instruments at * OE-facilitated current motor 2 whose DrengesaJ "in, -digkeit by means of lying in Peldkreis resistor 3 is set, for example: .from the: _:: OEF f entlicfaen Stromversorgungsnet ^ fed * In: - * _{,: :( As a} result of! frequency and voltage fluctuations in the supply network, the dreligescliviiixdigi £: eit: _:::: of DC motor 2 and thus the frequency of: ......... Generator 1 as well as the speed of the connected. & \ Synchronous motors «.

my side i te Ina ad compare m feönii ^ iijf niyi! 3stech iie speed (3er AntTi ^ tsmm ^^ Bm ^ ti ^ f over; DiiMSeit integrated, at least approximately smooth & itM / & a ο like BB condition 'is fulfilled by a He ge Ivorrichtung enjoying the -fire »Me vom Sjnchron- ^ C generator ¹ ^, supplied voltage wiri eiiieia: - ίΐ) φΐΐ: 1.Β «: - ^:: 4. B« g: tfli | ärt, the tee for example from - # i

Feestehtj which via a mechanical: in periodic Zb it a firmly and en for example: a minute a switch "actuates - · ΐϊϊϋ a current impulse - on the rotating pin 5

9 there. The Sciialtarsii IS ies; Soitritt 9 is increased by this impulse

When the magnet 5 by the

is excited; _{: he} looks at the Elinke 11 , which isit en 2nd e engages in a ratchet wheel 12- and theea moves forward by one Zateteilurtg. Between each & w © £ ^: close contacts of the step switch mechanism lies a solid ohmic fiderstend from fee iapie 1 e weis e ■ * - 5 ohms * A similarly designed step switch: ■ -; ■ ^ W throw 8 is derived from a pendulum clock 32 pulses weitergeschalteto the pendulum clock is a formed ,: that a contact is operated in the same time sequence as the dee g encoder 4, whereby a Strömi "pule to the rotary magnet 13 of the stepping mechanism 8 trifft0 the switching H of the indexing mechanism 0 is thus every minute by one step switched on

PA 55 | iö55 Bm - 7.-

Indeed, even between the adjacent contacts of the fixed resistors 8 SchaltTOrkes equal size, ■ are, for example, of 5 ohms, connected.

In this way, the "two step-by-step switches © form potentiometers with one of the number of taps corresponding to the number of contacts" Each potentiometer winding is now connected to three symmetrical Pu-nk.t @ "of the periphery and connected to the corresponding points on the other potentiometer winding «, TlTaer the switching arm 14 of the steps chain B , the voltage of a battery 16 is introduced into the potentiometer winding. The switching arm 15 of the stepping mechanism 9 engages. According to the difference in the positions of the switching arms H and 15 on the potentiometer ¹ -." * resistors a voltage Bt, which is dissipated from a polarized ^ eii * Ee la la- 6. Adhere the switching arms 14 and 15 in hessug on the interconnected. Tapping points of the two potentiometer windings have the same spatial position, the voltage tapped at switch form 15 has the value of Mull. Until the support arm 15 is in front of the switching arm 14, a voltage occurs. Certain polarity, which brings the Beiais 6 sum response. With the switching arm 15 after, a voltage of opposite polarity occurs, which the

PA 55/2035 Gm - 8 -

Relay in the other direction flips over the relay 6 will the servomotor? started in one direction or another. The servomotor adjusts the in the field circuit of the DC motor 2 lying resistance 3. The circuit is now set up in such a way that in the Pail in which the switching arm 15 lags behind, the PeId of the DC motor 2 is weakened and this increases its speed. The frequency "of the Svnohrongenerator 1 increases, and the pulse repetition frequency derived therefrom via the pulse generator 4 increases, so that the switching arm advances until its position corresponds to that of the switching arm 14.

conversely, the switching arm 15 leads the holding arm 14, so the speed of the direct current motor 2 is correspondingly reduced, the frequency of the generator 1 decreases and as a result of the lower pulse repetition frequency of the pulse generator 4, the walking speed of the arm 15 until it matches that of arm 14 again "

With the device described it is possible even with supply networks with strongly fluctuating voltage to ensure that the recording strip runs smoothly on all connected recording devices, so that the recorded values can be compared directly by overlapping the curves and can be evaluated »The DC motor 2

PA _: 55/2035 Gin - 9 -

is in a known manner via a rectifier fed by the supply network "

The switching of the two stepping mechanisms © for the derivation of a voltage corresponding to the difference in position of the switching arms can also be designed in a way other than that shown in Pig «1» For example, as indicated in 3? Ig »2, just connect two opposite points of the step-by-step switches held together to form a potentiometer winding and feed in the DC voltage via the connecting lines »The wipers of the switching arms are also connected to one another via lines 16 and 17» In this way you get two Wheatstone bridge circuits with a difference in diagonal branches are switched * The connections 16 and 17 are led to the Heiais t and this remains in the middle position, if the spatial position of the switching arms in both step switching mechanisms 8 and 9 match »-

Leave as step-by-step controls in the sense of the registration the turning, known from telecommunication technology, Use selector or motor selector »:>

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■ PA 55/2035 $ m - 10 - -

In Pig. 5 another application form is shown. It may be a system "in which the feed water supply p ge gels enenfa Ils the fuel supply from a --ά, η | p principle ski 0g; e according to Mg * is set .Begier not shown 3 "It is the task before, di $; ,, - &ug" _-.. '^"-" ^: led amount of fuel., integrated over time,, ijtr the boiler. In each case: adjust the given amount of water * you, laughing the amount of fuel is carried out by a glider 21 connected to the diagonal of a bridge 22 ..: Pie _: bridge 22 is built as a relationship bridge; " and by means of the ratio controller 23 the bridge is

Ratio a divisible. The bridge resistances. Ir- ^ - _v .

and W are adjusted via the fuel flow meter : ■ Water. The resistance Br changes according to the amount of the boiler firing st off, while the resistance is measured by the water meter:

active, discontinued «, Per alloy 21 influenced; diä;: »;,:, speed of the motor 19 for the division. With dem.Bezugszeichen 20 is gf for the power supplied to the boiler feed water amount beaeichnetc The _previously: described parts are for the boiler control per se known "According to the invention will now corresponds; speaking of the speed of the water flow meter 20

PA 55/2035. Gm - 11 -

Pulse generator 24 is driven, which gives a pulse frequency corresponding to the speed of the water flow meter 20 to the magnet 25 of a stepping mechanism 26. The allocation engine 19 for the. Fuel quantity is connected to a similar aufgebauten.Impulsgeber 27, of the Ä <§hzahl the allocation motor 19 pulses to the step · "accordingly: derailleur 28 is" The sequence controllers are _: like :: ashore the fig "one explained ₇ jsehalt together ©!; «-: According to the difference in the positions of the. Switching mechanisms 26 and 28, as already described earlier, a voltage is taken and a; ized relay 29 supplied. That. Seiais 29 a servomotor 3O ₅ of the _{erhältnis.steller:} 23 of the bridge 22 adjusted. The indexing mechanism 28 with respect to the switching mechanism 26 remains suriick, the allocated amount of fuel is too low and the bridge ratio is via the relay 29 and the servo motor: .30 changed in the sense that on the Brücfeea _{^: i} diagonal resulting voltage, the controller 21 d ^ e _:: , l | «h ^ number of the allocation motor 19 increased« In the same -! Quietly the speed of this motor is reduced when the stepping mechanism 28 is ahead of the stepping unit 26 ο '-φφ

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Claims (1)

P.A. 071878-1.2.1 Bl 55/2035 fm ~ 12 ~ S chutis entitlements: Arch device for quantities that can be represented by electrical pulse sequences, "in which the larrol sequences of two quantities are compared with one another" One step switch mechanism each (selector,: Mmbmm selector od, the like »of known design) for switch teup ^{: i} characterized in that the two switch mechanisms, by means of electrical resistors connected between adjacent ones, act as tioaieter with a number of taps corresponding to the number of contacts are connected, that the potentiometer circuits and, optionally, the content arms the stepping mechanisms such (eg., via pipelines) connected with the interposition of an electric voltage source, that on. suitable points of the circuit or ₀ on a switching arm a the position difference of the two stepping mechanisms by size and the corresponding voltage can be tapped off? and that by means of this voltage _s z With the help of a polarized heat, a controller for the ■ to be tracked variable is influenced » - 13 - Pi 55/2035 sqm - 13 ~ 2 »Hege! Device according to claim 1, characterized in that that the size to be supplied is the The frequency of a synchronous generator that can be controlled by a speed-controlled motor is and the clock frequency of a pendulum clock is used as a reference variable » 3, control device according to claim 1 and 2 _? characterized in that the frequency of the synchronous generator is converted into a slower pulse sequence fed to the stepping mechanism using a pulse generator driven by an operating or synchronous motor.