SU1119582A1 - Device for differential protection of converter unit - Google Patents

Abstract

1. DEVICE FOR PROTECTION DIFFERER1SCH1ALNOY rectifying installations, comprising a source of constant operating current 5-ispooP gitelny organ controlling a reed switch, an adjustable resistor connected in series with the control LWF-dissolved Coy said reed switch, and the comparator with sensors and variable DC current, characterized in that, in order to control, to ensure the safety of the service. and providing scheduled checks without shutting down the installation, the current sensors and the comparator unit are made on n reed switches, three of which are placed in the magnetic field of the conductors of the corresponding phases of the alternating current of the conversion installation, and the rest (C-3) of the reed switch is placed in the magnetic field of the constant Toka conductor The contacts of the three reed switches are connected to the executive body through the contact of the controlling reed switch, and their control windings are through the (P-3) resistor entered, the contacts E (h -3) of the switches, the control coils The control winding of the controlled reed switch and the control resistor are connected to a constant operating current source. 2. The device according to claim 1, which is additionally entered into it for each of the phases by a controlling reed switch, the control winding of which is connected in series with the control of the said reed switch located in The magnetic field of the corresponding phase and the contacts are connected to the contacts of the latter and the executive body. 3, The device according to PP, 1 and 2, o-t, l and h ate with the fact that the current control unit is inserted into it, the output of which is connected to the input of the converter plant, and the other contacts are from the so-called ( ) Reed switches are connected to the inputs of this unit.

Description

The invention relates to the reconstruction of technical equipment, namely to the device; 1. The units of venous transforming installations. A device for differential testing is known that protects the converter installation both from overvoltages and overloads and short circuits. The control unit is equipped with an executive unit, a unit of comparison with power units and alternating current and direct current sensors QiJ. However, the current sensors of this device are made with the infirmity of transformers of variable and constant current, which possesses the cost of h: t and requires the use of a converter from the work; fij.fi iliaioh nroiersk protection. In addition to Toio, the device can work falsely when the wires are bridged, connected; dich BbiHpJifiirjejib with a winding cable — this is the case, the one that is closest to it; technically, a device for the differential resistance of the transducer ycTajiOiJKii, contains;) 1i, its source of operational current, and a weak organ ,. controls. reed switch, adjustable resistor, note. This reed switch and comparison unit with alternating current and direct current sensors. This is ycTpoiiCTBO de1) with, left and more reliable than device 1, alternating current sensors are detected at neio with noMo; iyi transformer1 current (TT), which makes protection expensive the most common (especially in converters. j -; oji, electrolyzers and high-voltage ne |) current HOCTOHIHIOIO) due to the metal intensity, complexity of the terminal and the installation of the TT, y s l o l:. r y c d g; and ra and c li li r dy u s t roystv. It requires removal of work from shanavp protection checks, does not exclude the possibility of electrical shock when servicing, for example, partial checks and reprogramming on a working installation, because on water} the current windings of the TT uremeni may break. .icking.napr.-gi, dangerous;, e-life, .The purpose of the invention is to simplify the device, increase the safety of its service 31.vi ij providing ipanovyh checks without disconnecting the educational device. . Accessible c (1l is achieved by the fact / that in the device for differential protection of the transducer installation) we have a source of constant operational current and an extinguishing authority controlling the herroke, adjustable resistor connected in series with the control winding of the a reed switch and a comparison unit with AC and DC current sensors, current sensors and a comparator unit are mounted on reed switches, three of which are located in the magnetic field of the conductors of the corresponding AC phases of the converter Hoii installations, and the rest (P-3) of the V-box are located in the mapping field of the current nocTOHinioro current line conductor, and KOHTaicTbi of the above-mentioned reed switches. pgache1 (s to the executive body through the cop1ro.piruyi contact, its reed, li-ix pack 5 yu1e coil winding (p-z) of the resistor, contacts of the switched-on (P-3) reed switches, control winding t; control 1erkopa and peryjHipyeMbiis resistor connected to the nocTOHHiioro source current source. B the device can be additionally entered for each phase, but a pattern control winding Ido ™ Vat.pno with the control of the above mentioned Hook, fixed in a magnetic field, the corresponding phase, and contacts n, odkl; very much to the contacts of the last and to the executive body of the 15 conversion equipment with a current control unit other contacts in gp from (n -3) reed switches g1cdl are very good to the inputs of this block. Fig. 1 shows a diagram of the proposed protection device in Fig. 2; a diagram of a protection device with dono: a battery of co1GrO1Switches and a reed switch with a current control unit of a converter plant; . on (1; ig, 3 time diagrams of the MIT BIT FLOWS; acting on a reed switch fixed in the magnetic field of an alternating current conductor for various:; converting installation modes. Device reversing switches 1, S 15 J P J b) 1} where i 6.7 ...... n -1. The beginnings of control windings of reed switches l-f-lj. connected to the resistors 2, 2, 2 2f, .j, and the ends to the beginning of the control winding (1p) of the reed switch, the end of which is connected to the adjustable resistor 3, and the latter to the pole of the source 4 of the permanent operative current. The other pole of the source 4 is connected to fixed miacTH contact us reed switches 1h, V t n movable plates which are connected respectively to the resistors 2, 2j., 2 |, 2, Breaking contacts reed switches 1, - C connected to the executive body through the closing contacts of the controller. herko.na 1, and disconnecting contacts - to block 6 alarm. The reed switches C - Ij with control windings are fixed in a magnetic field, respectively, of alternating current conductors 7, 8, 9 of a converter plant consisting of a transformer 10 and a converter 1, to which a load 12 is connected. Reed contacts C, 15-, Ij.,, not having control windings are fixed in the magnetic field of conductor 13 of direct current of converter 11. The protection device can be supplemented (see Fig.2) with reed switches 14, 15, 16, the control windings of which are connected in series with the control windings of reed switches 1 , - C co (responsibly, and The contacts are with the contacts of the latter. For controllable converter installations, the contacts of n from (I-3) reed switches (see FIG. 2) have one more fixed plate connected to the control unit 17 of the current of the converter installation to which and the movable plate of each of the reed switches, the device operates as follows: In the load mode of the converter unit, the magnetic flux 4c created by the direct current Ju in the control winding of each of the cocks 1 3 is the magnetic flux from the currents c. conductor 7, 8, 9 acts on the reed switches 1 - Ij so that the latter are in the triggered state, and their contacts are open. Such an effect is ensured by the fact that the magnetic flux created by the amplitude value of the current current J of the load of the conductor 7, 8 or 9; The magnetic flux, under the action of which the kgykdy of the reed switches 1-1z is activated. the magnetic flux of the reserve, taking into account the discreteness of change and J, the rate of increase of the current of the converter, the influence of conductors of other phases. and-, xx,. where K is the coefficient of the converter circuit; 1 - current of the converter current load. j is provided by connecting to the source 4 nocTOHHHOio current of one or another number of resistors depending on the current load of the converter with the help of reed switches C, If - (In. The latter are adjusted /} so that the n-reed switch is activated under the action of the magnetic conductor 13 when The current in the converter reaches the nominal value, gr, (naprsh-iep "e vn is the current load current of the converter.) The difference between the currents in the conductor 13, at which any two adjacent reed switches operate, is equal to. Down. hj This difference determines the discreteness out The Lc ... Magnetic fluxes Tj, p and, at which the reed switches l, i and 1 are triggered, are created by the current and c.5 of the conductor 13, respectively, and y. (i-3) J, 1Т7ГДн {th for the reed switch and - th cf - Adjusting for one or another current of operation is carried out by changing the distance from the reed switch to the conductor and the angle between their axes (Fig. 3, and illustrates the operation of the device at .L - 3 (. (.,., n. .cP .. cf, t cp.1 cP ..- i, - cp. , FIG. 3, in -, p ,, 4, j,, p, filament flows acting with and -JCR5 reed switches I - li and from the side of the control winding and

conductors 1, П, Ш, respectively, Ф,, Р, affect it with

.c .., 1.

with,

With a short circuit in the converter 11, for example, when operating in the solution of 1 pc, the current in the current lead 7, 8 or 9 increases, and in the current to water 13 decreases; As a result. the ac magnetic flux effect of the conductors 7, 8, or 9. respectively, on the reed switches i / f, l or Ij, prevails, and the contacts of one or several gerkons (depending on the short-circuit type) fall out and become negative the alternating current half-wave, the actuating actuator, which disconnects the converter, FIG. 3, bil the speech, when to short circuit, and Mot-KiHT c, 3 ”, through the conductor 13, a current flowed sufficient only for the solar cell: E of the reed switch B ;. and reed switch. 1 of FIG. 3, g — if up to c. 3, the load current of the converter was sufficient to trigger the reed switch Ig, and after c. decreased, but there remained more kvA -JcpM - magnetic fluxes acting from the side of the tokonroBauds 7, 8, 9 on the corresponding reed switches at the short circuit; in these cases, " -l- is the magnetic flux at which the reed switch, j returns from the actuated state to the initial and zag n -1 channels; t and 2 time during which the contacts of the reed switch 1, 1 .; or 1l closed.

In case of overloads and short circuits in the load 12, when the current 17 of the converter exceeds 3, the proposed device will disconnect the converter, as in the case shown in Fig. 3.6, At L J,

, the reed switches 1 - Ij remain in the actuated position and no signal is given to turn off the converter. In this case, in the controlled converter installation, the converter current is limited by reducing the voltage depending on the number of reed switches (s), triggered at short circuit, or overload. After the termination of the overload or the disconnection of the damaged equipment by the protection of this equipment, the reed relays return to the initial polo. and the voltage of the converter increases, which ensures the normal operation of the remaining load consumers 12 without turning off the converter installation.

If the conductors connecting the control windings of the reed switches 1 - C with the source 4. or resistors break, the current stops flowing through the winding of the control winding cable fi. and it disconnects the actuator from the contacts of the reed switches 1 j to prevent false protection work and signal it through the block 6 about the malfunction. When the winding of the reed switches LI-Ij in the control winding, respectively, of the reed switches 14-16, the current ceases to flow, the reed switch with the D-switched winding is output, and the signaling unit is put into operation,

Thus, the proposed device is simpler than the existing ones, is safer in maintenance and does not require the conversion unit to be taken out of service for the time of scheduled checks. The economic effect of its implementation on only one converter installation of a high voltage direct current transmission with a voltage of 1500 kB is about 50 thousand rubles. (by excluding TT).

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Claims (3)

1. DEVICE FOR DIFFERENTIAL PROTECTION OF THE CONVERTER INSTALLATION, containing a source of direct operating current, an executive body controlling a reed switch, an adjustable resistor connected in series with the control winding of the aforementioned reed switch, and a comparison unit with AC and DC sensors, excluding In addition, in order to simplify and improve the safety of maintenance. · and to ensure scheduled inspections without shutting down the installation, the current sensors and comparison blocs are made on η reed switches, three of which They are placed in the magnetic field of the current conductors of the corresponding phases of the alternating current converter installation, and the remaining (P -3) reed switches are placed in the magnetic field of the DC current conductor, the contacts of the three reed switches being connected to the actuator via the contact of the monitoring reed switch, and their control windings '' through the introduced (P -3) resistors, the contacts of the aforementioned (h -3) arms, the control winding of the control reed switch and the adjustable resistor are connected to a constant operating current source. 2. Device according to claim 1 of t n and h and ^g u w e e c i so that it complements tively entered for each of the phases by controlling reed, upravlyayu- schaya winding is connected in series with said reed switch controlling obmotgkoy, placed in the magnetic field of the corresponding phase, and the contacts are connected to the contacts of the latter and the executive body. 3, The device according to PP, 1 and 2, from-. This means that a current control unit is inserted into it, the output of which is connected to the input of the converter unit, and other contacts of the GP- from (p-3) reed switches are connected to the inputs of this unit. * "TtsaA About sl 1 119582