RU2297701C1 - Lead-in switchgear - Google Patents

Abstract

FIELD: electrical engineering; electrical energy generation, conversion, and distribution.

SUBSTANCE: proposed switchgear has four lead-in panels 1, 2, 3, 4. Lead-in panels 1, 2 are provided with external main and stand-by cable lead-ins 5, 6 and 7, 8. Lead-in panels 3, 4 are provided with main and stand-by connecting cable lead-ins 9, 10, and 11, 12. Switchgear also has controller 13 and voltage monitoring devices 14, 15 installed on first and second lead-in panels 1, 2 as well as control apparatuses 16, 17, 18 19 installed in cable lead-ins and incorporating interlocks for main and stand-by contacts of cable lead-ins 5, 6 and 8 7, 9, 10 and 11, 12. Main external cable lead-ins 5 and 7 on first and second lead-in panels 1 and 2 are connected to inputs of devices 14, 15, respectively, and outputs of voltage monitoring devices 14, 15, to inputs of controller 13 whose outputs are connected to control apparatuses 16, 17, 18, and 19. Main connecting cable lead-in 9 on third lead-in panel 3 and stand-by connecting cable lead-in 12 on fourth lead-in panel 4 are connected to external stand-by cable lead-in 6 on first lead-in panel 1; stand-by cable lead-in 10 on third lead-in panel 3 and main connecting cable lead-in 11 on fourth lead-in panel 4 are connected to stand-by external cable lead-in 8 on second lead-in panel 2. Each of lead-in panels 1, 2, 3, and 4 has respective outgoing line 20,21, 22, and 23 incorporating electricity metering unit 24.

EFFECT: enhanced power capacity and operating reliability of switchgear.

1 cl, 1 dwg

Description

The invention relates to electrical engineering, namely to the production, conversion and distribution of electrical energy, in particular to input-distribution devices with two inputs.

Known input-distribution device containing a distribution panel equipped with a protection device made in the form of fuses, an input panel including external main and backup cable entries, while the main cable entry is connected to sequentially arranged: 3-phase control device, made in the form of a knife switch , a protection device made in the form of fuses, an electric energy metering unit, made in the form of current transformers and electric energy meters (see. “Electrical installation apparatus and articles ", reference TSPKB JSC" Electricity ", 4th edition, revised and enlarged -.. M .: INPA, 1999, at p.56, 59, FIG" AND "," input switching ")..

A disadvantage of the known input-distribution device is that the external redundant cable entry during operation is without load, and the cable is subject to negative environmental influences, namely moisture and icing, which in case of failure of the main cable entry and the inclusion of the backup cable input cannot guarantee the reliable operation of the input distribution device.

Moreover, the presence of only one input panel does not provide sufficient power to connect a second distribution panel. When connecting sophisticated equipment of the first category of reliability of power supply to the distribution panel, for example, large computer networks sensitive to power fluctuations, it is not allowed to connect the equipment of the second and third categories of reliability of power supply to this distribution panel, which reduces the technological capabilities of the input distribution device.

The closest in technical essence is an input and distribution device containing an input panel equipped with external main and backup cable entries, each of which is connected to the control unit with access to the outgoing line with an electric energy metering unit (see "Electrical installation devices and products", reference book of AOOT TsPKB "Elektromontazh", 4th ed., revised and supplemented. - M .: INPA, 1999, p. 36, fig. "B"), "Input-distribution device of the ASU 1-17-70UHL4").

A disadvantage of the known input-distribution device, as well as the aforementioned analogue, is that the external redundant cable entry is in operation without load and the cable is subject to negative environmental influences, namely moisture and icing, which in case of failure of the main cable entry and inclusion in the backup cable entry can not guarantee the reliable operation of the input and distribution device.

The presence of one input panel does not allow providing sufficient power to connect equipment of both the first, second and third reliability categories to the input-distribution device. The increase in the number of panels required to increase the power of the input-distribution device is associated with an increase in external backup and working cable entries, which leads to an increase in the equipment at the substation, the number of expensive cables, and the areas for laying them, which significantly increases the complexity and cost of installing water switchgears.

The technical result of the claimed invention provides for an increase in the power of the input-distribution device, an increase in the reliability of its operation by constantly loading external backup cable entries, as well as providing consumers with different categories of reliability of power supply to individual outgoing lines, depending on the availability of power on the external main and backup cable entries.

The specified technical result is achieved in that in the input-distribution device containing the input panel, equipped with external main and backup cable entries, each of which is connected to the control device with access to the outgoing line, equipped with an electric energy metering unit, according to the invention, it further comprises a controller and a second input panel with external main and backup cable entries, as well as a third and fourth additional input panels, each of which contains connecting a cable and redundant cable entries, while all cable entries are equipped with control devices with access to the second, third and fourth outgoing lines, respectively, equipped with electric energy metering units, and also contains voltage control devices installed on the first and second input panels, while the inputs voltage monitoring devices are connected to the external main cable entries of the first and second input panels, respectively, and the outputs are connected to the controller inputs, the outputs of the latter are connected to the control devices each cable entry, the connecting main cable entry of the third and the backup cable entry of the fourth additional input panels connected to the external backup cable entry of the first input panel, and the connecting backup cable entry of the third and main cable entry of the fourth additional input panels connected to the external backup cable entry of the second input panels.

The presence of a second input panel with external main and backup cable entries, as well as a third and fourth additional input panels, each of which contains a connecting main and backup cable entry, while all cable entries are equipped with control devices with access to the second, third and fourth outgoing, respectively lines equipped with metering stations for electric energy, allows for the provision of electricity by connecting consumers of different categories of reliability of electricity supply to individual depending on the availability of power supply to external main and backup cable entries, namely, to the first and second outgoing lines, connect consumers of the first category of reliability of power supply, and to the third and fourth outgoing lines of additional third and fourth input panels to connect consumers of electricity of the second or third reliability categories of power supply. This greatly improves the reliability of supplying consumers with electric energy, especially for large computer systems.

Connecting the connecting main cable entry of the third and backup cable entry of the fourth additional input panels to the external backup cable entry of the first input panel, and connecting the backup cable entry of the third and main cable entry of the fourth additional input panels to the external backup cable entry of the second input panel allows you to always keep it under load external redundant cable entries of the first and second input panels, which increases the reliability of their work and improves operating conditions at the water distribution device, and also increases its power due to the presence of additional third and fourth input panels. In addition, this allows for comparable power with the prototype to significantly reduce the amount of expensive cable, reduce the cost of laying it and avoid the cost of additional equipment at the substation.

The presence of a controller and voltage control devices installed on the first and second input panels, as well as control devices installed in each cable entry, allows you to automatically distribute electricity to consumers of different categories of reliability of power supply, depending on the availability of power at the main and backup cable entries.

Technical solutions that coincide with the totality of the essential features of the invention have not been identified, which allows us to conclude that the invention meets the condition of patentability “novelty”.

The claimed essential features of the invention, predetermining the receipt of the specified technical result, do not explicitly follow from the prior art, which allows us to conclude that the invention meets the condition of patentability "inventive step".

The drawing shows an electrical diagram of an input distribution device.

The input-distribution device contains the first and second input panels 1 and 2, as well as additional third and fourth input panels 3 and 4. The input panels 1 and 2 are equipped with external main and backup cable entries 5 and 6, 7 and 8, respectively. Additional input panels 3 and 4 are equipped with connecting main and backup cable entries 9 and 10, 11 and 12, respectively. The input-distribution device also contains a controller 13 and voltage control devices 14 and 15 installed on the first and second input panels 1 and 2, as well as control devices 16, 17, 18, 19 installed in the cable entries with locking contacts of the main and backup cable entries 5 and 6, 7 and 8, 9 and 10, 11 and 12. The external main cable entries 5 and 7 of the first and second input panels 1 and 2 are connected to the inputs of the voltage monitoring devices 14 and 15, respectively, and the outputs of the voltage monitoring devices 14 and 15 are connected controller inputs 13, which outputs connected to the control devices 16, 17, 18 and 19. In this case, the connecting main cable entry 9 of the third additional input panel 3 and the connecting redundant cable entry 12 of the fourth additional input panel 4 are connected to the external redundant cable entry 6 of the first input panel 1, and the connecting redundant the cable entry 10 of the third additional input panel 3 and the connecting main cable entry 11 of the fourth additional input panel 4 are connected to the external backup cable entry 8 of the second input panel 2.

Each input panel 1, 2, 3, and 4 contains a corresponding outgoing line 20, 21, 22, and 23 with the electric energy metering units 24 installed therein.

The input-distribution device operates as follows.

Using the control apparatuses 16, 17, 18 and 19, the external main cable entries 5, 7 of the input panels 1, 2 and the connecting main cable entries 9 and 11 of the additional input panels 3 and 4 are turned on. The voltage monitoring devices 14 and 15 indicate the presence of voltage in the external cable entries 5 and 7 of the first and second input panels 1 and 2. The external redundant cable entries 6 and 8 and the connecting redundant cable entries 10 and 12 using the control units 16, 17, 18 and 19 are in the open position. From the external redundant cable entries 6 and 8 of the first and second input panels 1 and 2, respectively, electricity is supplied to the connecting main cable entries 9 and 11 of the third and fourth additional input panels 3 and 4. Electricity is supplied to the outgoing lines 20, 21, 22 and 23, and through the metering station of electric energy 24 to consumers. In the event of an accident in the absence of power at the external main cable input 5 of the first input panel 1, the voltage control device 14 supplies a signal to the input of the controller 13, from the output of which a signal is transmitted to the control device 18 installed in the third additional input panel 3 and to the control device 16 installed in the first input panel 1. In this case, the control device 18 disconnects the contact of the external main cable input 9 and connects the contact of the connecting backup cable input 10. After that, the controller 13 gives a signal to and the control unit 16, which disconnects the contact of the external main cable entry 5 and connects the contact of the external backup cable entry 6. In this case, the power to the input panel 1 is supplied through the external backup cable entry 6, to the second input panel 2 through the external main cable entry 7 , to the third additional input panel 3 through the connecting redundant cable entry 10, powered from the external backup cable input 8, and to the fourth additional input panel 4 through the connecting main cable entry 11, s powered from external backup cable entry 8.

Thus, priority loads in the form of equipment of the first group of reliability of power supply connected to the outgoing lines 20 and 21 receive uninterrupted power supply. Moreover, the redundant external cable entries 6 and 8 are always energized, which improves their operating conditions and increases the reliability of operation.

Similarly, in the event of an emergency on the external main cable input 7 of the second input panel 2, the voltage control device 15 installed on the second input panel 2 supplies a signal to the input of the controller 13, from the output of which a signal is sent to the control unit 19 installed in the fourth additional input panel 4, and to the control device 17 installed in the second input panel 2. In this case, the control device 19 disconnects the contact of the connecting main cable input 11 and connects the contact of the connecting backup cable input 12. After that, the controller 13 sends a signal to the control device 17, which disconnects the contact of the external main cable input 7 and connects the contact of the external backup cable input 8. In this case, the power to the input panel 1 is supplied through the external main cable input 5, to the second input panel 2 - through an external redundant cable entry 8, to the third additional input panel 3 - through a connecting main cable entry 9, powered from an external backup cable entry 6, and to the fourth additional panel yes 4 through a connecting redundant cable entry 12, powered from an external backup cable entry 6.

In the event of an emergency, simultaneously on the external main cable entries 5 and 7 of the first and second input panels 1 and 2, the voltage control devices 14 and 15 installed in the first and second input panels 1 and 2 supply a signal to the input of the controller 13, from the output of which a signal to control devices 18 and 19 installed on the third and fourth additional input panels 3 and 4, and to control devices 16 and 17 installed on the first and second input panels 1 and 2. At the same time, control devices 18 and 19 disconnect the contacts of the connecting main cabe input 9 and 11. After that, the controller 13 sends a signal to the control devices 16 and 17, which disconnect the contacts of the external main cable entries 5 and 7 and connect the contacts of the external backup cable entries 6 and 8. In this case, the power to the input panel 1 is supplied through external redundant cable entry 6, to the second input panel 2 through the external redundant cable entry 8. The third additional input panel 3 and the fourth additional input panel 4 with outgoing lines 22 and 23 with non-priority load are disconnected from the power supply in this situation.

When the power supply is restored on one external main cable input 5 or 7, the power is switched to this external main cable input, and the third and fourth additional input panels 3 and 4 are connected to the external backup cable input 6 or 8, and the water distribution device provides power supply in full.

Claims (1)

An input-distribution device comprising an input panel provided with external main and backup cable entries, each of which is connected to a control device with access to an outgoing line equipped with an electric energy metering unit, characterized in that it further comprises a controller and a second input panel with external the main and backup cable entries, as well as the third and fourth additional input panels, each of which contains connecting primary and backup cable entries, while all cable the input inputs are equipped with control devices with access to the second, third and fourth outgoing lines, respectively, equipped with electric energy metering units, and also contains voltage control devices installed on the first and second input panels, while the inputs of the voltage control devices are connected to external main cable inputs the first and second input panels, respectively, and the outputs are connected to the inputs of the controller, the outputs of the latter are connected to the control devices of each cable entry, and connecting main cable entry third and fourth cable entry standby input additional panels are connected to external backup cable entry first the input panel, and connecting the standby cable entry of the third and fourth main cable entry additional input panel connected to the outer spare cable entry of the second input panel.