RU2726852C1 - Multi-contact switching system having independent control of four power contact groups having common connection point - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to electrical engineering, in particular to devices for sectioning and reserving power transmission lines, and is intended for switching, protection of electric network, metering of electric energy, control of electric energy quality, control of quantity and time of voltage disconnection in distribution electric networks of three-phase current. Technical result is achieved due to multi-contact switching system, having independent control of four power contact groups, having common connection point, comprising first output switching element of manual control, first remote control switching element, second remote control switching element, third remote control switching element, fourth remote control switching element, second output switching element of manual control, third output switching element of manual control, fourth output switching element for manual control, control unit of first remote switching element, control unit of second remote control switching element, control unit of third remote control switching element, fourth remote switching control element control unit, unit for remote control of power circuits of multi-contact switching system, local control unit of multi-contact switching system power circuits, current control unit, electric power accounting unit with electric energy quality control function, switching elements position monitoring unit, data transmission unit and voltage control unit.EFFECT: improved reliability and efficiency of power supply systems for consumers.1 cl, 1 dwg

Description

The invention relates to the field of electrical engineering, in particular, to devices for sectioning and redundancy of power lines and is intended for switching, protecting the electrical network, electricity metering, monitoring the quality of electricity, monitoring the amount and time of voltage outages in distribution electrical networks of three-phase current.

The closest in technical essence to the proposed invention is a sectioning point for switching and protecting power lines, installed on a pole support and including a high-voltage module and a low-voltage control and protection unit located in separate cases and connected by a cable, the high-voltage module contains on the cover and side wall high-voltage bushings for connection to power lines, current transformers and a vacuum circuit breaker, and the low-voltage control and protection unit contains vacuum circuit breaker controls, relay or microprocessor protection and automation devices and a battery (RF patent No. 52276, IPC Н02В 11/00, publ . 10.03.2006, Bulletin No. 7).

The disadvantage of the known sectioning point for switching and protecting power lines is its limited scope and, accordingly, the impossibility of using it for switching, protecting the electrical network, metering electricity, monitoring the quality of electricity, controlling the amount and time of voltage outages in three-phase distribution networks, the impossibility of independent control of four power contact groups (remote control contact elements) having a common connection point for sectioning and redundancy of four power networks (sections of power transmission lines).

The objective of the proposed invention is to increase the functionality and scope of its use through the use for switching, protection of the electrical network, electricity metering, power quality control, monitoring the amount and time of voltage disconnection in distribution networks of three-phase current with the possibility of independent control of four power contact groups having a common a connection point for sectioning and backing up four power networks (sections of power lines).

The technical result of the invention is to provide the ability to carry out the functions of switching, protection of the electrical network, electricity metering, power quality control, voltage control in distribution networks of three-phase current with the possibility of independent control of four power contact groups having a common connection point (common point of a multi-contact switching system), for the implementation of sectioning and redundancy of four power networks (sections of power lines). This is achieved due to the independent control of the contact groups of the multi-contact switching system and control of the modes of its operation and the modes of the network in which it is installed. It also allows to reduce the undersupply of electricity to consumers, to reduce losses of energy supplying organizations and, thus, to increase the reliability and efficiency of consumer power supply systems.

The above technical result is achieved in that the proposed multi-contact switching system having independent control of four power contact groups having a common connection point, including a switching element and a control and protection unit, according to the invention, contains a first output switching element of manual control installed in the first power circuit and intended for its manual switching, the first remote control switching element, which is the first power contact group with independent control, installed in the first power circuit between the first manual control output switching element and the common point of the multicontact switching system and intended for switching the first power circuit using remote controls, the second output switching element of manual control, installed in the second power circuit and intended for its manual switching, the second remote control switching element, which is a second power contact group with independent control, installed in the second power circuit between the second output switching element of manual control and a common point of the multi-contact switching system and intended for switching the second power circuit using remote control means, the third output switching element manual control, installed in the third power circuit and intended for its manual switching, the third switching element of remote control, which is a third power contact group with independent control, installed in the third power circuit between the third output switching element of manual control and the common point of the multi-contact switching system and intended for switching the third power circuit using remote controls, the fourth output switching element of manual control, set new in the fourth power circuit and intended for its manual switching, the fourth remote control switching element, which is the fourth power contact group with independent control, installed in the fourth power circuit between the fourth output switching element of manual control and the common point of the multi-contact switching system and intended for switching the fourth power circuit using remote control means, the control unit for the first remote control switching element connected to the first remote control switching element and transmitting to it the ON and OFF commands, the control unit for the second remote control switching element connected to the second remote control switching element and transmitting on it, the on and off commands, the control unit for the third switching element of the remote control, connected to the third commutation ionic element of remote control and transmitting to it commands of switching on and off, control unit of the fourth switching element of remote control connected to the fourth switching element of remote control and transmitting to it commands of switching on and off, unit of remote control of power circuits of a multi-contact switching system, connected to power circuits between the output switching elements of manual control and switching elements of remote control, also connected to the control units of the switching elements of remote control and transmitting commands received via the power network or through communication channels to the control units of the first, second, third and fourth switching elements of remote control, the unit local control of the first, second, third and fourth power circuits of the multi-contact switching system, connected to the first, second, third and fourth power circuits and with control units for the first, second, third and fourth remote control switching elements and transmitting manual control commands to the control units for the first, second, third and fourth remote control switching elements, a current control unit connected to the first, second, third and fourth power circuits of the multi-contact switching system between the first remote control switching element and the first manual switching element, between the second remote control switching element and the second manual remote switching element, between the third remote control switching element and the third manual manual switching element, between the fourth remote control switching element and the fourth output switching element of manual control, connected to the control units by the first, second, third and fourth switching elements dist remote control, and transmitting trip commands to the control units by the first, second, third and fourth switching elements of the remote control when the current in the first, or second, or third, or fourth power circuits exceeds a predetermined current value, taken as overload current or short-circuit current , as well as connected to the data transmission unit for transmitting current values in the first, second, third and fourth power circuits upon request, a data transmission unit that transmits information about the operation of the multi-contact switching system to the dispatcher of the company servicing the electrical network in which the multi-contact switching system is installed , a unit for monitoring the position of the switching elements, connected to the data transmission unit and the switching elements installed in the multi-contact switching system, monitoring the positions of the first output switching element of manual control, the first switching element of the distance control, the second remote control switching element, the third remote control switching element, the fourth remote control switching element, the second manual control output switching element, the third manual control output switching element and the fourth manual control output switching element, transmitting data about their position to the transmission unit data, an electricity metering unit with a function for monitoring the quality of electrical energy, connected to the first power circuit between the first remote control switching element and the first outgoing manual switching element, connected to the second power circuit between the second remote control switching element and the second manual outgoing switching element, connected to the third power circuit between the third switching element of the remote control and the third output switching element a manual control ohm connected to the fourth power circuit between the fourth remote control switching element and the fourth manual control output switching element, also connected to the data transmission unit, which records electricity consumption and power quality control functions in the first, second, third and fourth power circuits and transmitting data to a data transmission unit, a voltage control unit connected to the first power circuit between the first remote control switching element and the first outgoing manual control switching element, connected to the second power circuit between the second remote control switching element and the second manual control outgoing switching element, connected with the third power circuit between the third switching element of remote control and the third output switching element of manual control, also connected to the fourth power circuit between the fourth a remote control switching element and a fourth output manual switching element, and connected to the control units of the first, second, third and fourth remote control switching elements, with a data transmission unit that monitors the voltage in the power circuits of the multicontact switching system and transmits data on the voltage in them to the data transmission unit and to the control units of the remote control switching elements.

The essence of the invention is illustrated by a drawing, which shows a block diagram of a multi-contact switching system having independent control of four power contact groups having a common connection point.

A multi-contact switching system having independent control of four power contact groups having a common connection point contains the first output switching element of manual control (VYKERU 1), the first switching element of remote control (KEDU 2), the second switching element of remote control (KEDU 3), the third switching remote control element (KEDU 4), fourth remote control switching element (KEDU 5), second manual output switching element (VYKERU6), third manual output switching element (VIKERU7), fourth manual output switching element (VIKERU 8), block control unit for the first remote control switching element (BUKEDU 9), control unit for the second remote control switching element (BUKEDU 10), control unit for the third remote control switching element (BUKEDU 11), control unit for the fourth switching th element of remote control (BUKEDU 12), block for remote control of power circuits of a multi-contact switching system (BDUMKS 13), block for local control of power circuits of a multi-contact switching system (BMUMKS 14), current control unit (BKT 15), electricity metering unit with quality control function electrical energy (BUE 18), a unit for monitoring the position of switching elements (BKPKE 17), a data transmission unit (BPD 16), a voltage control unit (BKN 19).

VYKERU 1 is installed in the first power circuit. KEDU 2 is installed in the first power circuit between VYKERU 1 and the common point of the multi-contact switching system. VyKERU6 is installed in the second power circuit. KEDU 3 is installed in the second power circuit between VYKERU 6 and the common point of the multi-contact switching system. VyKERU 7 is installed in the third power circuit. KEDU 4 is installed in the third power circuit between VYKERU 7 and the common point of the multi-contact switching system. VyKERU 8 is installed in the fourth power circuit. KEDU 5 is installed in the fourth power circuit between VYKERU 8 and the common point of the multi-contact switching system. BUKEDU 9 is connected to KEDU 2. BUKEDU 10 is connected to KEDU 3. BUKEDU 11 is connected to KEDU 4. BUKEDU 12 is connected to KEDU 5. BDUMKS 13 is connected to power circuits between VIKERU 1 and KEDU 2, between VIKERU 6 and KEDU 3, between VIKERU 7 and KEDU 4, between VYKERU 8 and KEDU 5, is also connected with BUKEDU 9, BUKEDU 10, BUKEDU 11, BUKEDU 12. BMUMKS 14 connected to the first, second, third and fourth power circuits and to BUKEDU 9, BUKEDU 10, BUKEDU 11 , BUKEDU 12. BKT 15 is connected to power circuits between VYKERU 1 and KEDU 2, between VYKERU 6 and KEDU 3, between VYKERU 7 and KEDU 4, between VYKERU 8 and KEDU 5, also connected to BUKEDU 9, BUKEDU 10, BUKEDU 11, BUKEDU 12, and also connected to BPD 16. BKPKE 17 is connected to BPD 16 and connected to VYKERU 1, KEDU 2, VYKERU 6, KEDU 3, VYKERU 7, KEDU 4, VYKERU 8, KEDU 5. BUE 18 is connected to power circuits between VyKERU 1 and KEDU 2, between VYKERU 6 and KEDU 3, between VYKERU 7 and KEDU 4, between VYKERU 8 and KEDU 5, also connected to BPD 16. BKN 19 is connected to power circuits between VYKERU 1 and KEDU 2, between VyKERU 6 and KEDU 3, between VYKERU 7 and KEDU 4, between VYKERU 8 and KEDU 5, is also connected to BUKEDU 9, BUKEDU 10, BUKEDU 11, BUKEDU 12, also connected to BPD 16.

The device works as follows.

The voltage is supplied to the power circuit of the multicontact switching system using manual output switching elements (VyKERU 1, VYKERU 6, VYKERU 7, VYKERU8) installed in the power circuit depending on which side of the power network the power source is located on. In this case, power is supplied to the local control unit of the multi-contact switching system (BMUMKS 14), as a result of which a command is automatically sent to the control units for the first, second, third and fourth remote control switching elements (BUKEDU 9, BUKEDU 10, BUKEDU 11, BUKEDU 12) to turn on the first remote control switching element (KEDU 2), the second remote control switching element (KEDU 3), the third remote control switching element (KEDU 4), the fourth remote control switching element (KEDU 5), respectively. When the first output switching element of manual control (VYKERU1) is turned on, the voltage will be applied to the first power network behind the multi-contact switching system (if the power source is not located in the first power network). When you turn on the second output switching element of manual control (VYKERU 6), the voltage will be applied to the second power network behind the multi-contact switching system (if the power source is not located in the second power network). When the third output switching element of manual control (VYKERU 7) is switched on, the voltage will be applied to the third power network behind the multi-contact switching system (if the power source is not located in the third power network). When the fourth output switching element of manual control (VYKERU 8) is turned on, the voltage will be applied to the fourth power network behind the multi-contact switching system (if the power source is not located in the fourth power network) .With local control of the multi-contact switching system, the command to turn on / off the first, second, the third and fourth power circuits are supplied with the help of BMUMKS 14. In this case, the commands for disconnecting the corresponding power circuits are sent from BMUMKS14 to BUKEDU 9, BUKEDU 10, BUKEDU 11, BUKEDU 12, which, in turn, turn off KEDU 2, KEDU 3, KEDU 4 and KEDU 5 due to the interruption of power supply to their electromagnets. Also, disabling / enabling KEDU 2, KEDU 3, KEDU 4 and KEDU 5 of the multi-contact switching system can be carried out using commands sent to BUKEDU 9, BUKEDU 10, BUKEDU 11 and BUKEDU 12 from the remote control unit of the multi-contact switching system (BDUMKS13). BDUMKS 13 receives commands to turn on or off the corresponding KEDU multicontact switching system using a coded signal transmitted over the power network using existing signal transmission technologies or using a coded sequence for turning on and off the voltage in it, or receives commands to turn on or off the multi-contact switching system using a signal received through a communication channel, for example, JPS, JPRS, Glonass, radio or other channel. If an overload current or short-circuit current occurs in the power circuit behind the multicontact switching system to KEDU 2, KEDU 3, KEDU 4 or KEDU 5, the current control unit (BKT 15) will send a signal to a specific BUKEDU 9, BUKEDU 10, BUKEDU 11, BUKEDU 12, respectively, to disconnection of KEDU 2, KEDU 3, KEDU 4 or KEDU 5. In this case, if the logic of operation of BUKEDU 9, BUKEDU 10, BUKEDU 11 and BUKEDU 12 contains an algorithm for automatic reclosing (AR) of KEDU 2 (KEDU 3, KEDU 4, KEDU 5), then after the time delay, the corresponding automatic reclosure KEDU 2, AR KEDU 3, AR KEDU 4 or APVKEDU 5 will be carried out, if it is unsuccessful, that is, in the first, in the second, in the third or, respectively, in the fourth power networks behind the multi-contact switching system before KEDU 2, KEDU 3, KEDU 4 or KEDU 5, the overload current or short-circuit current will reappear, then BKT 15 will re-send a signal to BUKEDU 9, BUKEDU 10, BUKEDU 11, BUKEDU 12 to disconnect KEDU 2, KEDU 3, KEDU 4, KEDU 5. For This will block the possibility of remote switching on of the multi-contact switching system until the damage in the power circuit is eliminated behind KEDU 2, KEDU 3, KEDU 4, KEDU 5. Also, a message about the damage will be sent to KEDU 2, KEDU 3, KEDU4, KEDU 5. If AR is successful, the multi-contact switching system will continue to operate normally. The position of the switching elements of the multicontact switching system is monitored using the switching element position control unit (BKPKE 17), which, when the position of the switching elements KEDU 2, KEDU 3, KEDU 4, KEDU 5, VYKERU 1, VYKERU6, VYKERU 7, VKERU8 is changed, transmits the corresponding data to data transmission unit (BPD 16). The electricity consumption metering unit with the function of monitoring the quality of electrical energy (BUE 18) monitors the electricity transmitted through the first, second, third and fourth power circuits of the multi-contact switching system, and also monitors the quality indicators of electrical energy at the point of their connection. Data on electricity consumption and the quality of electrical energy are transmitted to the data transmission unit and through it to the dispatcher of the company servicing the equipment of the multi-contact switching system. The voltage control unit (BKN 19) monitors the voltage in the power circuits of the multi-contact switching system between VYKERU 1 and KEDU 2, between KEDU 3 and VyKERU6, between KEDU 4 and VYKERU 7, between KEDU 5 and VYKERU 8 and transmits information about the presence or absence of voltage on the BPD 16 and to BUKEDU 9, BUKEDU 10, BUKEDU 11, BUKEDU 12.

The proposed device allows to carry out switching and protection of power lines, electricity metering, power quality control, voltage control simultaneously in three power networks. When the voltage disappears in one of the power networks and appears in the other, the device allows the automatic switching on of the reserve by switching on the corresponding KEDU. Also, the device allows you to section the electrical network by dividing it into sections by disconnecting the corresponding power contact groups in case of damage in power networks connected to a multi-contact switching system. Its use prevents the development of an emergency and allows to reduce the undersupply of electricity to consumers, to reduce losses of energy supplying organizations and, thus, to increase the reliability and efficiency of consumer power supply systems.

Claims (1)

Multi-contact switching system with independent control of four power contact groups having a common point of connection, including a switching element and a control and protection unit, in addition to the fact that it contains the first output switching element of manual control , installed in the first power circuit and intended for its manual switching, the first remote control switching element, which is the first power contact group with independent control, installed in the first power circuit between the first manual control output switching element and the common point of the multi-contact switching system and intended for switching of the first power circuit using remote control means, the second output switching element of manual control installed in the second power circuit and intended for its manual switching, the second switching element of remote control, represented which is the second power contact group with independent control, installed in the second power circuit between the second output switching element of manual control and the common point of the multi-contact switching system and intended for switching the second power circuit using remote control means, the third output switching element of manual control installed in of the third power circuit and intended for its manual switching, the third remote control switching element, which is a third power contact group with independent control, installed in the third power circuit between the third output switching element of manual control and the common point of the multi-contact switching system and intended for switching the third power circuits using remote controls, the fourth output switching element of manual control, installed in the fourth power circuit and intended for it manual switching, the fourth remote control switching element, representing the fourth power contact group with independent control, installed in the fourth power circuit between the fourth manual control output switching element and the common point of the multi-contact switching system and intended for switching the fourth power circuit using remote controls, control unit for the first remote control switching element connected to the first remote control switching element and transmitting to it the ON and OFF commands, the control unit for the second remote control switching element connected to the second remote control switching element and transmitting the ON and OFF commands to it, the control unit the third remote control switching element, connected to the third remote control switching element and transmitting to on and off commands, a control unit for the fourth remote control switching element connected to the fourth remote control switching element and transmitting on and off commands to it, a remote control unit for power circuits of a multi-contact switching system connected to the power circuits between the output switching elements of manual control and remote control switching elements, also connected to the remote control switching elements control units and transmitting commands received via the power network or through communication channels to the control units of the first, second, third and fourth remote control switching elements, the first, second, third local control unit and the fourth power circuits of a multi-contact switching system, connected to the first, second, third and fourth power circuits and to the control units of the first, second, third fourth com mutation elements of remote control and transmitting manual control commands to control units of the first, second, third fourth switching elements of remote control, a current control unit connected to the first, second, third and fourth power circuits of the multi-contact switching system between the first switching element of remote control and the first output the manual switching element, between the second remote control switching element and the second manual switching output switching element, between the third remote control switching element and the manual manual control output switching element, between the fourth remote control switching element and the manual manual control output switching element, connected to the blocks control of the first, second, third and fourth switching elements of remote control, and transmitting the shutdown commands to b control locks for the first, second, third fourth switching elements of remote control when the current in the first, or second, or third, or fourth power circuits exceeds the specified current value, taken as the overload current or short-circuit current, and also connected to the data transmission unit for transmission of current values in the first, second, third and fourth power circuits upon request, a data transmission unit that transfers information about the operation of the multi-contact switching system to the dispatcher of the company serving the electrical network in which the multi-contact switching system is installed, a control unit for the position of switching elements connected to data transmission unit and switching elements installed in the multi-contact switching system, which controls the positions of the first output switching element of manual control, the first switching element of remote control, the second switching element of the distance control, the third remote control switching element, the fourth remote control switching element, the second manual control output switching element, the manual manual control output switching element and the manual manual control output switching element, transmitting data on their position to the data transmission unit, the electricity metering unit with function of quality control of electrical energy, connected to the first power circuit between the first remote control switching element and the first output switching element of manual control, connected to the second power circuit between the second switching element of remote control and the second output switching element of manual control, connected to the third power circuit between the third switching element of remote control and the third output switching element of manual control, connected to the fourth power circuit between the fourth switching element of remote control and the fourth output switching element of manual control, also connected to the data transmission unit, which records the electricity consumption and the power quality control functions in the first, second, third and fourth power circuits and transmits data to the data transmission unit, the control unit voltage connected to the first power circuit between the first remote control switching element and the first outgoing manual control switching element, connected to the second power circuit between the second remote control switching element and the second manual outgoing switching element, connected to the third power circuit between the third remote control switching element control and the third output switching element of manual control, also connected to the fourth power circuit between the fourth switching element of the remote control and the fourth th output switching element of manual control, and connected to the control units of the first, second, third and fourth switching elements of remote control, with a data transmission unit that monitors the voltage in the power circuits of the multi-contact switching system and transmits data about the voltage in them to the data transmission unit and to control units for remote control switching elements.

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