SU1718323A1 - Device for protection of collecting buses and cells of distribution against arc short-circuits - Google Patents

Abstract

The invention relates to electric power industry, namely, to the technique of relay protection, and can be used to protect busbars and cells of distribution cabinets from arc short circuits and indicate damaged cells. The purpose of the invention is the extension of functionality by determining the damaged cell and the damaged line. To do this, the device containing the reed switches installed near the busbars before and after the switches of each of the connections, the logical part and the executive body included in the circuit breaker tripping circuit, the switches installed at the beginning of the busbar compartment of each cell of the connecting connections, elements And and light panel 2 Il.

Description

The invention relates to electric power industry, namely to relay protection technology, and can be used to protect busbars and distribution cabinet cells from arc short circuits (CC) and to indicate damaged cells.

 A device for protecting tires from short-circuits containing reed switches is known. installed near tires of waste connections and inputs, and logical part 1. The disadvantage of this device is relatively low durability.

It is also known a device for protecting busbars and distribution cabinets from arc faults, containing reed switches designed to be installed close to current-carrying tires after the switches of each connection, other reed switches according to the number of outgoing connections, logical elements And, the number of which is equal to the number of outgoing connections. 2 A disadvantage of this device is the lack of indication of cell damage, which, with a significant number of switchgear cells, increases the time needed to find damage, and therefore the time of power interruption. Show it. When the bus bar fails, the input switch is disconnected, after which the repair personnel must inspect each cell to find the damaged one (inspection of each cell will take at least 05 h). Thus, inspection of the section, for example, with ten connections, will require about 5 hours.

The purpose of the invention is to expand the functionality by determining the damaged cell and the damaged

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The goal is achieved by the fact that, in the device for protection of busbars and cells of distribution cabinets of arc faults containing reed switches intended for installation near current-carrying buses after the switches of each of the connections, other reed switches are the number of outgoing connections waste connections, logical elements And, the number of which is equal to the number of cells of waste connections, are introduced, each of the other reed switches is designed for installation near busbars of its own cells of outgoing connections, while a reed switch intended to be installed near current-carrying tires after the switch of the first outgoing line is connected to the first input of the first I / I element and to the inverse input of the second element I, and the first of the other reed switches busbars of the first outgoing line, connected to the second inputs of the first and second elements And, and the second inverse of the third element And, a reed switch, designed to be installed near the current-carrying tires after the switch second waste line connected to the third inverse of the third element I and the second input of the fourth element I, and the second of the other reed switches intended to be installed near the busbars of the cell of the second outgoing line connected to the first inputs of the third and fourth elements I and the first inverse to the input of the fifth element I, the reed switch, intended to be installed before the input switch, is connected to the second input of the fifth element AND to the first inverse input of the sixth element And, and the third from the other reed switches. intended for installation after the input switch, connected to the second input of the sixth element AND, reed switch. intended for installation near the current-carrying bus after the switch of the third outgoing line, connected to the first input of the seventh element And and the first inverse input of the eighth element I. the fourth of the other reed switches, intended to be installed near the busbar of the third outgoing cell the fifth element And the second inputs of the seventh and eighth elements And, with the output of each of the above elements And connected to the corresponding input of the light panel, made on the LED s matrices free of conclusions of all the reed switches have a terminal for connection to a power source.

A comparative analysis with the prototype shows that the claimed device for protecting busbars and distribution cabinets from arc faults is different.

the presence of new elements: reed switches installed at the beginning of the busbar compartment of each cell of outgoing connections, logical gates And, a light board and their connections among themselves and with the rest

elements of the device. Thus, the claimed device meets the criterion of novelty.

A comparison of the proposed solution with other technological solutions shows that reed switches, logic gates, and a light board are widely known. However, when they are introduced in this connection with the rest of the elements, the claimed device exhibits new properties, namely, it allows.

It is necessary to determine the damaged cell and the damaged line. This allows us to conclude that the technical solution meets the criterion of significant differences. Figure 1 shows a diagram of the protected section of busbars, where 1 is the input cell, 2, 3, 4 are the cells of the departing lines, 5, b, 8 are the switches of the outgoing lines, 7 is the input switch, 9, 10, 12 - reed switches installed near outgoing lines 11

- reed switch installed after the input switch, 13, 14, 16 reed switches installed at the beginning of the busbar compartment of the cells of waste connections, 15 - reed switch installed before the input switch, 1723 short-circuit points.

Fig. 2 shows a functional diagram of the device, where 24, 27, 30 are two-input elements And 25, 29.31 are two-input elements And with one inverse input, 26,

28 - three-input elements And with two inverse entrances, 32 - a light board. Consider the operation of the device. Reed switches 9-16 respond to all types of short-circuit. Their coordinates are determined in the same way.

5 as in the prototype. The actuation currents of the reed switches 9 and 13,10,12 and 16 are built up from the self-starting currents of the motors connected respectively to the cells 2, 3,4. The trigger current of the reed switch 14 is adjusted from the amount

0 self-starting currents of motors connected to cells 2 and 3. The tripping currents of the reed switches 11 and 15 are reset from the self-starting current of the entire section. In the absence of motors, the tripping currents of the above

5 reed switches are rebuilt from the corresponding maximum operating current. Consequently, in normal operation, the contacts of the switches 9-16 are open. With short circuit in cell 2, for example, at point 19

reed switch 13 and does not work

reed switch 9, i.e. at the output of the element And 25 a signal appears and on the light panel 32 the number 2 corresponding to the cell number lights up.

With a short circuit in cell 3, for example, at point 20, the reed switch 14 is triggered and the reed switches 10 and 13 do not work. At the output of element And 26, a signal appears and the number 3 lights up on the light display.

With a short circuit in cell 1, for example, at point 21, the reed switch 15 is triggered and the reed switches 14 and 16 do not work. At the output of the And 28 element, a signal appears and the number 1 lights up on the light display.

With a short circuit in the cell 4. For example, at point 23 the reed switch 16 is activated and the reed switch does not work 12. At the output of element I 31, a signal appears and on the light panel the number 4 lights up.

With a short-circuit fault on the outgoing line, for example, at point 18, the reed switches 10 and 14 are triggered. it is indicated that a fault occurred on the outgoing line connected to cell 3.

Similarly, the device operates with short circuits at points 17 and 19. Such signaling allows you to quickly find the cell on the outgoing line of which a short-circuit occurred, in case of failure of the outgoing line protection and switching off the input switch 7 under the action of re, grain protection.

With a short-circuit on the plug-in contacts of the input switch 7, for example, at point 22, the reed switch 11 is activated and the reed switch 15 does not work. At the output of the AND 29 element, a signal appears and the input switch lights up on the light panel.

Thus, the proposed device indicates a damaged cell with a short circuit and, in comparison with the prototype, reduces the time for its retrieval.

Claims (1)

The invention The device for protection of busbars and cells of distribution cabinets from arc: short circuits containing ger-gones intended to be installed near current-carrying tires after the switches of each connection, other reed switches according to the number of outgoing connections, logical elements And, the number of which is the number of waste connections, characterized by the fact that, in order to extending the functionality by detecting a damaged cell and a damaged line, logical elements are entered into it. And, the number of which is equal to the number of cells of the waste connections, each of the other reed switches is designed to install its own waste connections near the busbars, designed for installation near the busbar after the switch of the first outgoing line, is connected to the first input of the first element And to the inverse input of the second element And, and the first of the other reed switches, intended for installation near the busbars of the cell of the first outgoing line, connected to the second inputs of the first and second elements AND and the second inverse of the third element And, the reed switch, intended to be installed near the current bus after the switch of the second outgoing line, connected to the third inverse of the third element And the second input of the fourth element is And, and the second from other reed switches intended for installations near busbars of the second runaway cell, connected to the first the inputs of the third and fourth elements AND and the first inverse of the first element And, the reed switch, intended to be installed before the input switch, is connected to the second input of the fifth element AND to the first inverse of the sixth element AND, and the third of the other reed switches intended for installation after the input switch, connecting to the second input of the sixth element I, the reed switch, intended for installation near the current carrying bus after the switch of the third outgoing line, is connected to the first input of the seventh element And and the first inverse input of the eighth element And, the fourth of the other reed switches, designed to be installed near the busbars of the cell of the third outgoing line, connect to the third inverse input of the fifth element And and the second inputs of the seventh and eighth elements And, the output of each of the above elements And connected to the corresponding input a light panel made on LED arrays, and the free terminals of all reed switches have a terminal for connection to a power source.  .... pet GT1 j /, r f Ј2,. - GAYI 15 "16 Ii i hch I M i ten and, / 7 (Ml sV2 18 ft Editor And, Shu l and Tehred M. Morgenthal Order 887 Circulation Subscription VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35. Raushska nab., 4/5 eleven G2 22 fa D. Fig 2 Proofreader O. Kravtsov