RU2768976C1 - MEASURING ELEMENT FOR RELAY PROTECTION ON REED SWITCHES OF A POWER LINE WITH A VOLTAGE OF 500 kv - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to the field of electrical engineering. Due to the introduction of four rectangular bars and two plates, two T-shaped bars and U-shaped plates, one trapezoidal plate, six threaded rods into the measuring body and their respective fastening to each other, as well as to the remote spacer of three wires of one phase of the power line, to the lower side of its traverse and to the support post allows you to increase the sensitivity of the measuring body, since the line wires will not change their position in space under the influence of wind loads, and the reed switches, fixed at a safe distance from them, will operate (close their contacts) at given settings.EFFECT: increasing the sensitivity and reliability of the design of the measuring body.1 cl, 3 dwg

Description

The invention relates to electrical engineering, namely to relay protection engineering, and can be used as a measuring device for current protection of power transmission lines with a voltage of 500 kV.

Known measuring body for current protection [SU 743099, H02H 3/08, H01H 83/20, publ. 06/25/1980], containing a reed switch mounted on a plate located in the magnetic field of the busbar, a graduated movable gear rack, a rotary part with a sight and a locking screw. One end of the rail is fixed on the plate, and the other is mounted with the possibility of movement and fixation relative to the busbar in the grooves of the rotary part, coupled, for example, with the flange of the busbar trunking support insulator.

The disadvantage of this measuring body is the limited scope of use.

Known measuring body for relay protection on reed switches [RU 2624907, H02H 3/08, publ. 07/10/2017], selected as a prototype, containing a body with a lid, made in the form of a parallelepiped. In one part of the housing, at its bottom, a rectangular protrusion is made, across which a hole is made, into which an adjusting bolt is inserted, passing through the groove of the first rectangular beam located next to the protrusion. The adjusting bolt is fixed with a nut. A scale is applied to the upper side of the first bar. On the upper side of the protrusion, parallel to the longitudinal axis of its opening, a notch is made to visually determine the change in the position of the first bar. A second rectangular beam is fixed on the first beam with a screw. On the side of the second beam, four through holes are made at the same distance from each other, inside which four reed switches are fixed parallel to each other. In the central part of the body, at its bottom, a box in the form of a parallelepiped is fixed. A resistor, a capacitor, an intermediate relay, the first and second terminal blocks are fixed inside the case. The second terminal block is fixed inside the coaxial holes made in the adjacent side walls of the case and the case. In the end wall of the canister there is a hole for input and output of wires, next to which a cable channel is fixed. In the other part of the housing, from the inner and outer sides of its bottom, four corners are fixed in pairs with each other with the help of bolts and nuts for fastening the housing in the magnetic field of the current-carrying busbar of the electrical installation. The reed switches are connected in parallel to the first terminal block by means of wires passing through the cable channel. The resistor is connected to one of the negative terminals of the first terminal block, to the first input of the intermediate relay and to the first plate of the capacitor. The second input of the intermediate relay is connected to the positive terminals of the first and second terminal blocks. The second capacitor plate and the first output of the intermediate relay are connected to the first negative terminal of the second terminal block. The second negative terminal of the second terminal block is connected to the second output of the intermediate relay and the trip circuit of the switch of the electrical installation. A source of direct control current is connected to the positive terminal and to the first negative terminal of the second terminal block.

The disadvantage of this measuring body is its low sensitivity when used to protect power lines with a voltage of 500 kV, since its wires can oscillate (i.e. change their position in space) under the influence of wind loads, while the reed switches remain in their original position . Also, under the influence of the mentioned loads, the measuring body itself may break, which characterizes the insufficient reliability of its design.

The technical result of the invention is to increase the sensitivity and reliability of the design of the measuring body.

To achieve a technical result in a measuring body for relay protection on reed switches of a power line with a voltage of 500 kV containing the first, second, third and fourth reed switches, a housing with a cover, the first and second rectangular bars, the first, second, third and fourth corners, a cable channel, connecting wires, according to the invention, the fifth reed switch, the fifth and sixth corners, the third, fourth, fifth and sixth rectangular bars, the first and second T-shaped bars, the first and second rectangular plates, the first and second U-shaped plates, the trapezoid plate, the first , the second, third, fourth, fifth and sixth threaded rods with two lugs, the body with a cover is fixed with two screws in the groove at the beginning of the elongated part of the first T-shaped beam, inside the body, the first rectangular beam is fixed to its bottom with a screw, with on the side of this beam at the same distance from each other, five through holes are made, inside which are parallel to each other five reed switches are fixed, the bottom of the groove at the end of the elongated part of the first T-shaped beam rests against one of the dies of the remote spacer of three wires of one phase of the power line, which is connected to the beam with a bolt passing through coaxial through holes in the side faces of the groove and in the die and fixed with a nut, the shortened parts of the first and second T-bars are fixed with four studs with nuts each to the lower side of the power line traverse, to which, in the same way, at the same distance from the second T-shaped bar, the first and second rectangular plates are fixed, the bottom the groove at the end of the straight end of the second rectangular beam rests against the side face of the first T-shaped beam, and a bolt fixed with a nut is inserted into the coaxial holes in it and in the side edges of the groove. The bottom of the groove at the end of the elongated part of the second T-shaped bar abuts against the side face of the second rectangular bar in the middle of its length, and a bolt fixed with a nut is inserted into the coaxial holes in it and in the side faces of the said groove. The trapezoidal plate is fixed to the side faces of the power transmission tower post with four studs and nuts and has three sockets into which the spikes are inserted, located at the ends of the beveled ends of the second, third and fourth rectangular beams, using the first, second and third corners, respectively, and screws attached to this plate. The fifth rectangular beam passes through the coaxial holes made in the second, third and fourth rectangular beams, and with the help of the fourth and fifth corners it is fixed with screws to the last two beams. The bottom of the groove at the end of the first end of the sixth rectangular beam abuts against the side face of the first T-shaped beam, and a bolt fixed with a nut is inserted into the coaxial holes in it and in the side edges of the groove. The spike located at the end of the second end of the sixth rectangular bar is inserted into the socket of the second T-shaped bar, and the bars themselves are fixed to each other with the help of the sixth corner and screws. The first and second U-shaped plates are placed at the same distance from the second T-shaped bar, and are fixed to the third rectangular bar with bolts passing through coaxial holes in it and in the shortened part of each of the plates and fixed with nuts, and to the second and fourth rectangular beams - with the help of bolts passing through coaxial holes in them and in both elongated parts of each of the plates and fixed with nuts. The first lugs of the first and second, third and fourth threaded rods are fixed to the first and second protrusions with holes, respectively, of the third and fourth rectangular bars, and the second lugs are fixed in the same way to the first and second protrusions with holes on the first and second rectangular plates. The first lugs of the fifth and sixth threaded rods are fixed to the third protrusions with holes of the third and fourth rectangular beams by means of bolts and nuts, and the second lugs are fixed in the same way to the first and second protrusions with holes on the shortened part of the second T-shaped beam.

The cable channel with the help of mounting plates and self-tapping screws is fixed to the side face and to the shortened part of the first T-shaped beam, as well as to the side faces of the traverse and the rack of the transmission line support. The connecting wires laid in the cable duct and passing through coaxial holes in it and in the housing are connected at one end to the contacts of the reed switches, and at the other end to the protection logic unit.

The novelty of the proposed technical solution is due to the fact that due to the introduction of four rectangular bars and two plates, two T-shaped bars and U-shaped plates, one trapezoidal plate, six threaded rods and their respective fastening to each other, as well as to the remote spacer of three wires one phase of the power line, to the lower side of its traverse and to the support post, allows you to increase the sensitivity of the measuring body, since the wires of the line will not change their position in space under the influence of wind loads, and the reed switches fixed at a safe distance from them will work ( close their contacts) at the given settings.

The essence of the invention is illustrated by the drawing, where in Fig. 1 shows the measuring body without a cover, general view; figure 2 is an enlarged image of the location of the reed switches; in fig. 3 measuring body in isometry.

The measuring body for relay protection on reed switches of a power line with a voltage of 500 kV contains the first 1 (Fig. 1), the second 2, the third 3, the fourth 4 and the fifth 5 reed switches, the body 6 with a cover, the first 7 (Fig. 2), the second 8, third 9, fourth 10, fifth 11 and sixth 12 rectangular bars. The body 6 with the help of two screws 13 is fixed in the groove at the beginning of the elongated part of the first T-shaped beam 14. Inside the body 6, the first rectangular beam 7 is fixed to its bottom with the help of a screw 15. On the side of this beam at the same distance from each other, five through holes, inside which reed switches 1-5 are fixed parallel to each other. The bottom of the groove at the end of the elongated part of the first T-shaped beam 14 rests against one of the dies of the remote spacer 16 of three wires 17 of one phase of the power line, which is connected to the beam 14 by means of a bolt 18 passing through coaxial through holes in the side faces of the groove and in the die and fixed with a nut. The shortened parts of the first 14 and second 19 T-beams with the help of four studs 20 (Fig. 2) with nuts are each fixed to the lower side of the traverse 21 of the power line, to which the first 22 and second 23 rectangular plates. The bottom of the groove at the end of the straight end of the second rectangular beam 8 rests against the side face of the first T-shaped beam 14, and a bolt 24 is inserted into the coaxial holes in it and in the side edges of the groove, which is fixed with a nut. The bottom of the groove at the end of the elongated part of the second T-shaped bar 19 abuts against the side face of the second rectangular bar 8 in the middle of its length, and a bolt 25 is inserted into the coaxial holes in it and in the side faces of the mentioned groove, which is fixed with a nut. Trapezoidal plate 26 with four studs 27 with nuts is fixed to the side faces of the rack 28 of the transmission line support and has three slots into which spikes are inserted located at the ends of the beveled ends of the second 8, third 9 and fourth 10 rectangular bars, using the first 29, second 30 and third 31 corners, respectively, and screws attached to this plate. The fifth rectangular bar 11 passes through the coaxial holes made in the second 8, third 9 and fourth 10 rectangular bars, and with the help of the fourth 32 and 33 fifth corners, it is fixed with screws to the last two bars. The bottom of the groove at the end of the first end of the sixth rectangular beam 12 rests against the side face of the first T-shaped beam 14, and a bolt 34 is inserted into the coaxial holes in it and in the side edges of the groove, which is fixed with a nut. The spike located at the end of the second end of the sixth rectangular bar 12 is inserted into the socket of the second T-shaped bar 19, and the bars themselves are fixed to each other with the help of the sixth corner 35 and screws. The first 36 and second 37 U-shaped plates are placed at the same distance from the second T-shaped bar 19, and are fixed to the third rectangular bar 9 with bolts 38 passing through coaxial holes in it and in the shortened part of each of the plates and fixed with nuts, and to the second 8 and fourth 10 rectangular bars - with the help of bolts 39 passing through coaxial holes in them and in both elongated parts of each of the plates and fixed with nuts. The first eyes 40 and 41 (42 and 43) of the first 44 and second 45 (third 46 and fourth 47) threaded rods are fixed to the first 49 (50) and second 51 (52) protrusions with holes of the third 9 (fourth 10) of a rectangular beam, and the second eyes 53 and 54 (55 and 56) - in the same way to the first 57 and 58 (second 59 and 60) protrusions with holes on the first 22 and second 23 rectangular plates. The first eyes 61 and 62 of the fifth 63 and sixth 64 threaded rods with the help of bolts 48 with nuts are fixed to the third ledges 65 and 66 with holes of the third 9 and fourth 10 rectangular bars, and the second eyes 67 and 68 - in the same way to the first 69 and second 70 protrusions with holes on the shortened part of the second T-shaped bar 19. The cable channel 71 with the help of mounting plates 72 and self-tapping screws is fixed to the side face and to the shortened part of the first T-shaped bar 14, as well as to the side edges of the traverse 21 and the pillar 28 of the support power lines. The connecting wires 73, laid in the cable channel 71 and passing through coaxial holes in it and in the housing 6, are connected at one end to the contacts of the reed switches 1-5, and at the other end to the protection logic unit (not shown in Figs. 1 and 2).

When implementing the measuring body, reed switches of the KEM-2 type can be used. Housing 6 with cover, rectangular bars 7-12, T-bars 14 and 19, rectangular plates 22 and 23, trapezoidal plate 26, angles 29-33, 35, cable duct 71 can be made of ABS type plastic using 3D- print. UTP 4PR cable can be used as connecting wires 73, and M30 and M40 bolts can be used as bolts 18, 24, 25, 34, 38, 39 and 48.

The measuring body for relay protection on the reed switches of the power line with a voltage of 500 kV operates as follows. The current of the protection operation and the operation current of the reed switches 1-5 are determined. The operation current of each of the reed switches 1-5 is understood as the value of the current flowing in the wires 17 of the phase of the power line during a short circuit on it, at which the reed switch closes its contacts and outputs a signal to the protection logic unit. All reed switches 1-5 have a tripping current that differs from each other due to the location at different distances h from the wires 17 (with a fixed step). Further, from the obtained values of the operation currents of reed switches 1-5, the closest to the protection operation current is selected, i.e. choose a reed switch, by the operation of which they will judge the presence of a short circuit on the line. In load mode, the current flowing in the wires 17 is insufficient to operate the selected reed switch. In the event of a short circuit, the reed switch is triggered (closes its contacts) and, through the connecting wires 73, transmits a signal to the logic protection unit, which sends a signal to the trip circuit of the power line switches.

Claims (1)

Measuring element for relay protection on reed switches of a 500 kV power line, containing the first, second, third and fourth reed switches, a body with a cover, the first and second rectangular bars, the first, second, third and fourth corners, a cable channel, connecting wires, characterized in that that the fifth reed switch, the fifth and sixth corners, the third, fourth, fifth and sixth rectangular bars, the first and second T-shaped bars, the first and second rectangular plates, the first and second U-shaped plates, the trapezoid plate, the first, second, third, fourth, fifth and sixth threaded rods with two lugs, and the body with the lid with two screws is fixed in the groove at the beginning of the elongated part of the first T-bar; inside the case to its bottom with the help of a screw, the first rectangular bar is fixed; on the side of this bar at the same distance from each other, five through holes are made, inside which five reed switches are fixed parallel to each other; the bottom of the groove at the end of the elongated part of the first T-shaped beam rests against one of the dies of the remote spacer of three wires of one phase of the power line, which is connected to the beam by means of a bolt passing through coaxial through holes in the side faces of the groove and in the die and fixed with a nut; the shortened parts of the first and second T-bars are fixed with four studs with nuts each to the lower side of the power line crosshead, to which the first and second rectangular plates are fixed in the same way at the same distance from the second T-shaped bar; the bottom of the groove at the end of the straight end of the second rectangular beam rests against the side face of the first T-shaped beam, and a bolt fixed with a nut is inserted into the coaxial holes in it and in the side edges of the groove; the bottom of the groove at the end of the elongated part of the second T-shaped bar abuts against the side face of the second rectangular bar in the middle of its length, and a bolt fixed with a nut is inserted into the coaxial holes in it and in the side faces of the mentioned groove; the trapezoidal plate is fixed to the side faces of the power transmission tower post with four studs and nuts and has three sockets into which the spikes are inserted, located at the ends of the beveled ends of the second, third and fourth rectangular beams, using the first, second and third corners, respectively, and screws fixed to this plate; the fifth rectangular beam passes through the coaxial holes made in the second, third and fourth rectangular beams, and with the help of the fourth and fifth corners it is fixed with screws to the last two beams; the bottom of the groove at the end of the first end of the sixth rectangular beam abuts against the side face of the first T-shaped beam, and a bolt fixed with a nut is inserted into the coaxial holes in it and in the side edges of the groove; a spike located at the end of the second end of the sixth rectangular bar is inserted into the socket of the second T-shaped bar, and the bars themselves are fixed to each other with the help of the sixth corner and screws; the first and second U-shaped plates are placed at the same distance from the second T-shaped bar, and are fixed to the third rectangular bar with bolts passing through coaxial holes in it and in the shortened part of each of the plates and fixed with nuts, and to the second and fourth rectangular beams - with the help of bolts passing through coaxial holes in them and in both elongated parts of each of the plates and fixed with nuts; the first lugs of the first and second, third and fourth threaded rods are fixed to the first and second protrusions with holes, respectively, of the third and fourth rectangular beams, with the help of bolts and nuts, and the second lugs are fixed in the same way to the first and second protrusions with holes on the first and second rectangular plates; the first lugs of the fifth and sixth threaded rods are fixed to the third protrusions with holes of the third and fourth rectangular beams with the help of bolts and nuts, and the second lugs - in the same way to the first and second protrusions with holes on the shortened part of the second T-shaped beam; cable channel with the help of mounting plates and self-tapping screws is fixed to the side face and to the shortened part of the first T-shaped beam, as well as to the side faces of the traverse and the rack of the transmission line support; the connecting wires laid in the cable duct and passing through the coaxial holes in it and in the housing are connected at one end to the contacts of the reed switches, and at the other end to the protection logic unit.

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