High-voltage intelligent switch alternating current capacitor
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H02J-003/18
H01G-004/255
H01G-004/258
출원번호
US-0116892
(2015-02-05)
등록번호
US-9876359
(2018-01-23)
우선권정보
CN-2014 1 0046598 (2014-02-08)
국제출원번호
PCT/CN2015/072268
(2015-02-05)
국제공개번호
WO2015/117557
(2015-08-13)
발명자
/ 주소
Wang, Hai
출원인 / 주소
GYRK INTERNATIONAL TECHNOLOGY CO., LTD.
대리인 / 주소
Barnes & Thornburg LLP
인용정보
피인용 횟수 :
1인용 특허 :
1
초록▼
Disclosed is a high-voltage AC capacitor for reactive power compensation of 10 kV-35 kV power grid, and in particular to a high-voltage AC capacitor with a high-voltage switching switch provided therein, as well as a structure for prolonging the service life of a thin film metalized high-voltage cap
Disclosed is a high-voltage AC capacitor for reactive power compensation of 10 kV-35 kV power grid, and in particular to a high-voltage AC capacitor with a high-voltage switching switch provided therein, as well as a structure for prolonging the service life of a thin film metalized high-voltage capacitor and a control method for prolonging the service life of the thin film metalized high-voltage capacitor. The AC capacitor is formed by multiple intelligent switch capacitor units connected in series, and each capacitor unit is formed by a switch contact (K11-Kn1) and a capacitor (C1-Cn) connected in series. If there are N capacitor units, when each switch contact is disconnected, the endurable voltage of each switch contact, the endurable voltage between the switch contact and a coil and the voltage each capacitor withstands are 1/Nth of the total voltage; when the switch operates, all the contacts operate at the same instant.
대표청구항▼
1. A high-voltage intelligent switch alternating current (AC) capacitor, comprising a high-voltage intelligent switch and a high-voltage AC capacitor, wherein the high-voltage intelligent switch and the high-voltage AC capacitor are formed of a plurality of intelligent switch capacitor units connect
1. A high-voltage intelligent switch alternating current (AC) capacitor, comprising a high-voltage intelligent switch and a high-voltage AC capacitor, wherein the high-voltage intelligent switch and the high-voltage AC capacitor are formed of a plurality of intelligent switch capacitor units connected in series, and have a control end for controlling the high-voltage intelligent switch; each of the plurality of intelligent switch capacitor units comprises an intelligent switch control module, a relay switch, and an AC capacitor, wherein contacts of the relay switch are connected with the AC capacitor in series, and the intelligent switch control module is connected to both ends of a series circuit of the contacts of the relay switch and the AC capacitor. 2. The high-voltage intelligent switch AC capacitor according to claim 1, wherein the intelligent switch control module is composed of a power supply module, an intelligent switch control circuit, a switch contact protection circuit, a low-voltage end communication module, a high-voltage end communication module, a temperature sensor, a current detection module, a voltage detection module and a capacitor discharging module. 3. The high-voltage intelligent switch AC capacitor according to claim 2, wherein the power supply module is a capacitance step-down rectification voltage stabilizing power supply. 4. The high-voltage intelligent switch AC capacitor according to claim 1, wherein the relay switch in each of the plurality of intelligent switch capacitor units is a magnetic latching relay switch. 5. The high-voltage intelligent switch AC capacitor according to claim 1, wherein after a control port of the high-voltage intelligent switch AC capacitor receives a switch-on instruction, the switch-on instruction will be transmitted to the plurality of intelligent switch capacitor units through the high-voltage end communication module and low-voltage end communication module in each of the plurality of intelligent switch capacitor units and switches of the plurality of intelligent switch capacitor units are turned on at a same time; and when the control port receives a switch-off instruction, switches of the plurality of intelligent switch capacitor units are turned off at a same time. 6. The high-voltage intelligent switch AC capacitor according to claim 1, wherein a temperature sensor is arranged in each of the plurality intelligent switch capacitor units, and is configured to detect temperature of capacitor core packages; a current detector is provided in each of the plurality of intelligent switch capacitor units and is configured to detect current passing through the AC capacitor and harmonic components during operating of the AC capacitor; and a voltage detection module is arranged in each of the plurality of intelligent switch units and is configured to detect operation voltage during operating of the AC capacitor; when one or more of the plurality of intelligent switch capacitor units detects that a temperature, current or voltage exceeds a set value, switches of the plurality of intelligent switch capacitor unit are notified through the high and low voltage communication modules to be turned off at a same time, so as to protect the AC capacitor in each of the plurality of the intelligent switch capacitor units. 7. The high-voltage intelligent switch AC capacitor according to claim 1, wherein both ends of each of the intelligent switch capacitor unit are connected to relay contacts in parallel, and the parallel relay is controlled by an intelligent switch control module of the each of the plurality of intelligent switch capacitor units; a contact circuit of the parallel relay is provided with a current mutual inductor, and when the parallel relay contacts short out the each of the plurality of intelligent switch capacitor units, the current mutual inductor provides power to the intelligent switch control module of the each of the plurality of intelligent switch capacitor units. 8. The high-voltage intelligent switch AC capacitor according to claim 1, wherein the AC capacitor in each of the plurality intelligent switch capacitor units is composed of a plurality of thin film metalized capacitor core packages connected in serial or in parallel. 9. The high-voltage intelligent switch AC capacitor according to claim 1, wherein each of the plurality of intelligent switch capacitor units has a metal housing, which is functioned as a pole of the each of the plurality of intelligent switch capacitor units. 10. The high-voltage intelligent switch AC capacitor according to claim 2, wherein the relay switch in each of the plurality of intelligent switch capacitor units is a magnetic latching relay switch. 11. The high-voltage intelligent switch AC capacitor according to claim 2, wherein after a control port of the high-voltage intelligent switch AC capacitor receives a switch-on instruction, the switch-on instruction will be transmitted to the plurality of intelligent switch capacitor units through the high-voltage end communication module and low-voltage end communication module in each of the plurality of intelligent switch capacitor units, and switches of the plurality of intelligent switch capacitor units are turned on at a same time; and when the control port receives a switch-off instruction, switches of the plurality of intelligent switch capacitor units are turned off at a same time. 12. The high-voltage intelligent switch AC capacitor according to claim 3, wherein after a control port of the high-voltage intelligent switch AC capacitor receives a switch-on instruction, the switch-on instruction will be transmitted to the plurality of intelligent switch capacitor units through the high-voltage end communication module and low-voltage end communication module in each of the plurality of intelligent switch capacitor units, and switches of all the plurality of intelligent switch capacitor units are turned on at a same time; and when the control port receives a switch-off instruction, switches of the plurality of intelligent switch capacitor units are turned off at a same time. 13. The high-voltage intelligent switch AC capacitor according to claim 4, wherein after a control port of the high-voltage intelligent switch AC capacitor receives a switch-on instruction, the switch-on instruction will be transmitted to the plurality of intelligent switch capacitor units through the high-voltage end communication module and low-voltage end communication module in each of the plurality of intelligent switch capacitor units, and switches of the plurality of intelligent switch capacitor units are turned on at a same time; and when the control port receives a switch-off instruction, switches of the intelligent switch capacitor units are turned off at a same time. 14. The high-voltage intelligent switch AC capacitor according to claim 2, wherein a temperature sensor is arranged in each of the plurality of intelligent switch capacitor units, and is configured to detect temperature of capacitor core packages; a current detector is provided in each of the plurality of intelligent switch capacitor unit, and is configured to detect current passing through the AC capacitor and harmonic components during operating of the AC capacitor; and a voltage detection module is arranged in each of the intelligent switch units, and is configured to detect operation voltage during operating of the AC capacitor; when one or more of the plurality of intelligent switch capacitor unit detects that a temperature, current or voltage exceeds a set value, switches of the plurality of the intelligent switch capacitor unit are notified through the high and low voltage communication modules to be turned off at a same time, so as to protect the AC capacitor in each of the plurality of the intelligent switch capacitor units. 15. The high-voltage intelligent switch AC capacitor according to claim 3, wherein a temperature sensor is arranged in each of the plurality of intelligent switch capacitor unit, and is configured to detect temperature of capacitor core packages; a current detector is provided in each of the plurality of intelligent switch capacitor units, and is configured to detect current passing through the capacitor and harmonic components during operating of the AC capacitor; and a voltage detection module is arranged in each of the plurality of intelligent switch unit, and is configured to detect operation voltage during operating of the AC capacitor; when one or more of the plurality of intelligent switch capacitor units detects that a temperature, current or voltage exceeds a set value, switches of all the intelligent switch capacitor unit are notified through the high and low voltage communication modules to be turned off at a same time, so as to protect the capacitor in each of the plurality of the intelligent switch capacitor units. 16. The high-voltage intelligent switch AC capacitor according to claim 4, wherein a temperature sensor is arranged in each of the plurality of intelligent switch capacitor units, and is configured to detect temperature of capacitor core packages; a current detector is provided in each of the plurality of intelligent switch capacitor units, and is configured to detect current passing through the AC capacitor and harmonic components during operating of the AC capacitor; and a voltage detection module is arranged in each of the plurality of intelligent switch unit, and is configured to detect operation voltage during operating of the capacitor; when one or more of the plurality of intelligent switch capacitor unit detects that a temperature, current or voltage exceeds a set value, switches of the plurality of intelligent switch capacitor units are notified through the high and low voltage communication modules to be turned off at a same time, so as to protect the AC capacitor in each of the plurality of the intelligent switch capacitor units. 17. The high-voltage intelligent switch AC capacitor according to claim 5, wherein a temperature sensor is arranged in each of the plurality of intelligent switch capacitor units, and is configured to detect temperature of capacitor core packages; a current detector is provided in each of the plurality of intelligent switch capacitor units, and is configured to detect current passing through the AC capacitor and harmonic components during operating of the AC capacitor; and a voltage detection module is arranged in each of the plurality of intelligent switch unit, and is configured to detect operation voltage during operating of the capacitor; when one or more of the plurality of intelligent switch capacitor unit detects that a temperature, current or voltage exceeds a set value, switches of the plurality of intelligent switch capacitor unit are notified through the high and low voltage communication modules to be turned off at a same time, so as to protect the AC capacitor in each of the plurality of the intelligent switch capacitor units. 18. The high-voltage intelligent switch AC capacitor according to claim 2, wherein both ends of each of the intelligent switch capacitor unit are connected to relay contacts in parallel, and the parallel relay is controlled by an intelligent switch control module of the each of the plurality of intelligent switch capacitor units; a contact circuit of the parallel relay is provided with a current mutual inductor, and when the parallel relay contacts short out the each of the plurality of intelligent switch capacitor units, the current mutual inductor provides power to the intelligent switch control module of the each of the plurality of intelligent switch capacitor units. 19. The high-voltage intelligent switch AC capacitor according to claim 3, wherein both ends of each of the intelligent switch capacitor units are connected to relay contacts in parallel, and the parallel relay is controlled by an intelligent switch control module of the each of the plurality of intelligent switch capacitor units; a contact circuit of the parallel relay is provided with a current mutual inductor, and when the parallel relay contacts short out the each of the plurality of intelligent switch capacitor units, the current mutual inductor provides power to the intelligent switch control module of the each of the plurality of intelligent switch capacitor units. 20. The high-voltage intelligent switch AC capacitor according to claim 4, wherein both ends of each of the intelligent switch capacitor units are connected to relay contacts in parallel, and the parallel relay is controlled by an intelligent switch control module of the each of the plurality of intelligent switch capacitor units; a contact circuit of the parallel relay is provided with a current mutual inductor, and when the parallel relay contacts short out the each of the plurality of intelligent switch capacitor units, the current mutual inductor provides power to the intelligent switch control module of the each of the plurality of intelligent switch capacitor units.
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