SU1757006A1 - Combined device for electric unit protection - Google Patents

Description

The invention relates to electrical equipment, in particular, to combination devices with electrical equipment protection Bdf (from leaks and ground and from fully-functional modes) with simultaneous determination of non-phase-related coanHKfiOeeHMfl locations and may be used to diagnose the technical condition of electrical equipment

A device for protection of electrical installations is known. This device contains a sub-plug-in to the OYZMYKEUSCHRM / block contact switching unit of the block

It is connected with the output diagonal of the bridge south of the bridge with a capacitor-bridged capacitor, the input diagonal of the bridge is connected via a splitter transformer, and mm terminals for connecting to the network to the switching device and ferroresonant stabilizer, control of the communications appliance

The device of ovum will be absorbed from

C-IH p leakage current and / uroznch resistors

f

ABOUT

The electrical insulation of the electrical installation is lower than the regulated value of and, but obg, protects the electrical installation oi t of the non-phase modes of its operation, since the device is intended only to jam the electrical installation from the ZORL current leakage.

The closest in technical essence and the achieved result (pre-type) is a combined device to protect the electrical installation from damage in emergency operating modes containing an isolation control unit connected to the opening contact of the switching device whose output thyristor through the first signal lamp connected to the output diagonal of the rectifying bridge, shunted by a capacitor, the input diagonal of the bridge is connected via a PRS / L transformer to the terminals ( The first group of terminals) for connecting to the network up to the switching apparatus and with a voltage resonator with a voltage regulator of the control circuit of the switching apparatus, while the output of the sensing / malfunctioning half-phase mode:; meter with capacitors in its beams connected to the second group of pins for podklkimi to the working windings of the protected elec vc installation is connected to the input of the pepper control resistor and the cathode of the pagzhy (output) thyristor is connected to the diode, the second adjustment The resistor is a second signal lamp and a thyristor, which are prepared for the output diagram of a rectifier. my bridge

The known device did not provide separation of zones of detection of an incomplete mode between the switching device and the section of the outgoing line to the operation of the windings of the protected electrical installation.

The aim of the invention is the pactm of the functionality by separating the zones for detecting the ash-phase operation mode of the electrical installation.

The goal is achieved by the fact that the tro electrical device protection com- plex, containing the first and second thyristors connected to the disconnecting block contact of the switching apparatus, is connected to the output diagonal of the rectifier bridge through the appropriate signal lamps which is connected via an isolation transformer to the terminals (the first group of terminals) for connection to the network before the switching

apparatus and a ferroresistive stabilizer with a voltage circuit-breaker using a control device with a switching device, then the output (common point) of the sensitive node for detection of an uncomplete-phase mode, made in the form of a first three-phase asymmetry with consensors in the ere rays connected to the signals (the second group of ) for connecting to the working windings of the protected electrical installation, is connected to the first terminal of the first adjustment resistor, and the cathode / "control electrode of the first thyristor is connected respectively to the anode of the pervag diode and cat The house of the second diodes, the third one, the four diodes and the second oer / switch, according to the specifications of the supplementary cable, introduced the third control resistor, the third thyristor, the trap signal lamp, the second and the third of three different asi - r gry capacitors In their beams, connected to the network phases to the CONGR / TOV switching device after the ego, the common point of the second three-phase meter is connected through the anode-cathode treg of its diode to the anode of the second diode, the third point is about asymmetry through the third adjustment re The resistor is connected to the internal thyristor and the third signal lamp connected to the output diagonal of the rectifying bridge, controlling the second and third thyristors of the third and third diode diodes, to the cathode of the third diode, and the second thyristor cathode is connected to the second ground of the first adjusting resistor od i1- from the terminals of the second adjusting-resistor resistor is connected to the terminal for connection to the zero point of the working windings of the electrical installation, and the second connection of the single-i diode with the fourth diode Todo thyristor.

This drawing shows the scheme of the proposed device.

The device contains a switch box for the block contact of the switching device 1 pre-isolation unit 2, the first 3 and second 4 thyristors of which through the corresponding signal lamps 5, 6 are connected the output diagonal of the rectifying bridge 7, the input diagonal of which is connected through separation transformer 8 with terminals for connecting to the network up to the switching device and a ferroresonant voltage regulator 9 of the wirzpen circuit of the switching device 1, where the output 10 of the sensitive node Incomplete phase mode, performed in the first three phase gzid

an asimmegra 11 with capacitors in its beams connected to the terminals for connecting to the working windings 12 of the protected electrical installation is connected to the first terminal of the first adjustment resistor 13, and the cathode and control electrode of the first thyristor 3 are connected respectively to the anode of the first diode 14 and the cathode of the second diode 15 , the third 16, the fourth 17 diodes and the second control resistor 18, according to the invention, a third control resistor 19 is additionally introduced, t solve the thyristor 20, the third signal lamp 21, the second 22 and the third 23 are three-phase symmetries with capacitors in their rays connected respectively to the terminals for connecting to the mains phases before the contacts of the switching device 1 and after it, the common point 24 of the second three-phase asymmeter 22 is connected through the anode-cathode of the third diode 16 with the anode of the second diode 15, common point 3b of the third asymmetry 23 is connected via a third adjusting resistor 19 to a common point of a series-connected third thyristor 20 and a third signal lamp 21 connected to the output diagonal of a rectifying bridge 7. control electrodes w cerned 4 and 20 of the third thyristor are connected to the cathode of the third diode 16 and the cathode of the second five- variable resistor 4 is connected to a second terminal of the first adjusting resistor 13; One of the terminals of the second control resistor US is connected to the terminal for connecting the operating sockets 12 of the electrical installation to the zero point 26 and the second terminal is connected via the cathode-anode of the fourth diode 17c to the cathode of the first thyristor 3,

The protection device; from the incomplete-phase operation modes of the electrical installation operates as follows,

In the normal full-phase operation mode of the electrical installation between the common point 26 of the star of its working windings 12 and the common point 24 of the second three-phase asymmeter 22 there is no potential difference, the current through the control electrode of the first (output) thyristor 3 and its forward channel does not flow, the blocking of the control circuit of the switching device 1 and the disconnection of the protected electrical installation 12 from the mains supply does not occur. Electrical installation functions normally.

If an emergency incomplete-phase mode of operation of an electrical installation occurs, for example, if a phase is broken in one of its working windings, between the common point 26 of the star of its working windings 12 and the common (zero) point 24 of the second three-phase

the asymmetry 22 creates a potential difference under the action of which the control current flows through the control electrode of the thyristor 3 along the circuit: common (zero) point 2A of the three-phase asymmeter 22 - diode 16 - diode 15 control electrode - cathode of the thyristor 3 - diode 17 - control resistor 18 - a total point of 26 star working windings 12 protected electrical installations. When the control current flows through the control electrode of the thyristor 3, its direct channel is ejected, which leads to the flow of load current through the signal lamp 5 through the circuit: plus, a rectifying bridge 7 - anode-cathode of the first (output) thyristor 3 - signal lamp 5 - minus of the power bridge 7. At the same time, the control circuits of the switching device 1 are blocked and the protected electrical installation is disconnected from the mains.

If during the removal and subsequent supply of voltage to the control circuit of the switching device 1 after the protection triggers, the warning lamp 5 continues to light, then it is concluded that the protection of the installation against current leakage to ground has been triggered. If the lamp 5 goes out, it is concluded that the protection of the electrical installation has worked against the occurrence of an incomplete-phase mode in the working windings of the electrical installation 12.

When an emergency incomplete-phase operation of an electrical installation occurs, for example, if a phase (line) wire breaks in the power supply section from the switching device 1 to the working windings of the electrical installation 12 between common point 10 of the first three-phase asymmetres 11 and common (zero) point 24 of the second a three-phase asymmetry 22 creates a potential difference, under the action of which the control current flows through the control electrode of the second thyristor 4 along the circuit: common point 24 of the three-phase asymmeter 22 - diode 16 - control electrode - to At the thyristor 4 - adjusting resistor 13 - common point 10 of three-phase asymmetre 11. At this, the forward channel of thyristor 4 is unlocked and leakage current flows through the signal lamp 6 from the rectifying bridge 7, which leads to blocking of the control circuit of the switching device 1 and disconnecting the protected electrical installation from the mains.

The luminescence of the signal lamp 6 means damage to the mains supply in the area from the point of connection to the working windings

V2 electrical installation before switching device 1.

When an accelerated non-phase-phase operating mode of the electrical conduit occurs, for example, if an fgzyugo (linear) wire breaks in the power contact-group of the switching device 1, the difference between the common point 25 of the third three-phase asymmeter 23 and the common (zero) point 4 of the second three-phase asymmeter 22 potentials, under the action - of which the control current flows through the control electron of the third thyristor soe 20 through a circuit1 common point 4 of a three-phase asymmetry 22 - diode 16 - control yy /. electrode - cathode of the third thyristor 20 - adjusting resistor 19 - common point 25 of the second three-phase asymmetry 23.

As a result, the direct channel of the thyristor 20 is turned off and the load current flows through the signal lamp 21 from the rectifying bridge 7; this leads to blocking of the control circuits of the switching device 1 and disconnecting the protected electrical installation from the mains. In this case, the luminescence of the signal lamp 21 means the damage of the mains supply - the occurrence of a non-phase-contact system in the power contact of the communicating device 1.

The proposed device, according to the prototype, provides for an extension of the separation of the zones of detection of electronic phase mode.

Formula ti saben e and Combined device for wiring electrical installations, containing a pre-control isolation unit connected to the disconnecting block contact of the switching device, the first and second thyristors of which are connected to the output diagonal through cooroesc rectifying my ta, whose diagonal is connected, through an isolation transformer with

terminals for connecting to the network up to the switching device and a ferro-resonance voltage regulator to control the voltage of the switching device;

at the same time, the output of the sensing unit of detecting the continuous-phase mode performed by f. the form of the first three-phase kimsymmetr with kochdechsgtormii B his beams connects the R-And to the tag / gami for connection to the working

threshes of the protected electrical installation, connecting the first output of the first control resistor, and the cathode and the control electrode, the first thyristor electrode are connected to the anode of the first power supply and the cathode from the third diode, the fourth diode / jj, and the second adjusting resistor, characterized by the fact that it is imperative to use the functions of the xping by separating the young to the hI: the different values of the different types of work and the workplace is introduced and, automatically, is the regimen / GBOShny, resistor, the third thyristor one-third lamp signal, second and third lamp hfaznye asymmetry with condensation

tors B connected respectively g terminals for connecting to the phases of the network of the contacts of the switching apparatus and it, the common point of the second three-phase asymmeter is connected through

Achoc-year of the trr diode with the anode of the second d / ype, common third asymmeter 1) This horizontal resistance resistor is connected with a fault point in series with the third thyristor and the third

signal lmpy connected to the output bridge 1 /) di-onal of the rectifier of the bridge bridge str1l 01 |, and e / 1 of the second and third shooting gallery, sgo / oz are connected to the cathode of the third diode, the cathode of the second thyristor is connected

C in the furnace v output of the first adjustment. Tooa one of the SURVOR of the second regulator FIRMWARE resistor is connected to the terminal for F | Luieni to the nupea point of the works, electrical installation and conclusion

connect through the cathode-anode of the diode with the cathode of the first thyristor

Claims (1)

Claim A combined device for protecting the electrical installation, comprising a preliminary insulation control unit connected to the disconnecting block circuit of the switching apparatus, the first and second thyristors of which are connected via the signal lamps to the output diagonal of the rectifier bridge, the input diagonal of which is connected through the isolation transformer to the terminals for connecting to the network switching apparatus and a ferroresonant voltage stabilizer of the control circuit of the switching apparatus, at the output of the sensitive node for detecting an out-of-phase mode, made in the form of a first three-phase asymmetry with capacitors in its beams connected to terminals for connecting to the working windings of the protected electrical installation, is connected to the first output of the first control resistor, and the cathode and control electrode of the first thyristor are connected respectively to the anode the first diode and the cathode of the second diode, the third, fourth diodes and the second regulating resistor, which is characterized in that, in order to expand the functional NOSTA by separation zones I and NEP detected L of n o and f s n o r e of about>: ima electrical work, further administered a third adjusting resistor, a third thyristor. the third signal lamp, the second and third three-phase asymmetres with capacitors in the beams, respectively connected to the terminals for connecting to the network phases before and after the contacts of the switching device, the common point of the second three-phase asymmetry is connected through the anode-cathode of the third diode to the anode of the second diode, common point the third asymmetry through the third adjustment resistor is connected to the common point of the third thyristor and the third signal lamp connected in series to the output diagonal of the rectifier the control electrodes of the second and third thyristors are connected to the cathode of the third diode, and the cathode of the second thyristor is connected to the second terminal of the first regulation resistor, one of the terminals of the second regulation resistor is connected to the terminal for connecting to the zero point of the operating windings of the electrical installation, and the second terminal is connected through the cathode anode of the fourth diode with a cathode nepfsoro thyristor.