CN112701778A - Three-section type auxiliary power automatic switching method with contact bus - Google Patents

Abstract

The invention discloses a three-section type auxiliary power automatic switching method with a contact bus, which relates to the technical field of power systems and comprises a normal operation mode and a special operation mode, wherein the normal operation mode is that a service inlet switch operates with a load bus, the special operation mode is that the contact switch operates with the load bus, the service inlet switches 1DL and 2DL in a station with I and II buses externally connected with each other operate with load, the service inlet switch III serves as the contact bus without load, an external construction power supply and an emergency power supply switch 3DL are respectively provided with 8 automatic switching modes for the I bus and the II bus with the load, the automatic switching function of a standby power supply with the power loss of the load bus in the normal operation mode that the service inlet switch operates with the bus and the special operation mode that the contact switch operates with the bus can be realized, and the reliability of power supply is ensured.

Description

Three-section type auxiliary power automatic switching method with contact bus

Technical Field

The invention relates to the technical field of power systems, in particular to a three-section type auxiliary power spare power automatic switching method with a contact bus.

Background

The three-section type station service spare power automatic switching logic with the contact buses has the advantages that due to the existence of the contact buses, the operation modes are flexible and various, the common spare power automatic switching logic cannot meet the requirements of various operation modes, the standby power supply cannot be automatically switched after the bus loses power, and the risk of station service power loss is increased.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a three-section type auxiliary power spare power automatic switching method with a contact bus.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a take three-section station service spare power automatic switching method of contact bus, includes normal operating mode and special operating mode, normal operating mode is that service entrance switch takes load bus to move, special operating mode is that contact switch takes load bus to move, and service entrance switch 1DL, 2DL take load to move in I female, II female external stations, and III female as contact bus do not take the load, external construction power supply and emergency power switch 3 DL.

Preferably, the operation of the load bus of the incoming line switch comprises four spare power automatic switching modes, specifically the following contents:

1DL independently operates with I bus, the III bus is used as a standby power supply of the I bus, the charging in the automatic switching mode 1 is completed, when the I bus is not pressurized, the III bus is pressurized, and the 1DL incoming line is not flowed, the automatic switching mode 1 is started, the 1DL switch is tripped through a time delay Tt1, the 1DL switch is determined to be tripped, and after the I bus is not pressurized, the Th1 is switched to the 4DL switch;

when the 2DL bus operates independently with the II bus, the III bus is used as a standby power supply of the II bus, the charging in the automatic switching mode 5 is completed, when the II bus is not pressurized, the III bus is pressurized, and the 2DL incoming line does not flow, the automatic switching mode 5 is started, the 2DL switch is tripped through a time delay Tt5, the 2DL switch is determined to be tripped, and after the II bus is not pressurized, the 5DL switch is switched through the Th 5;

1DL carries I mother and III mother to operate in a linked mode, II mother is used as a primary spare power automatic switching power supply, 3DL switch incoming line is used as a secondary spare power automatic switching power supply, the charging of the automatic switching mode 2 is completed, when I mother is not voltage, III mother is not voltage, and 1DL incoming line is not current, the automatic switching mode 2 is started, 1DL switch is tripped through time delay Tt2, 1DL switch tripping is confirmed, after I mother and III mother are not voltage, if II mother is voltage, 5DL is switched through time delay Th2, if II mother is not voltage, 3DL incoming line is voltage, 3DL is switched through time delay Th 2;

the 2DL is connected with the II bus and the III bus to operate, the I bus is used as a primary spare power automatic switching power supply, the 3DL switch incoming line is used as a secondary spare power automatic switching power supply, the automatic switching mode 6 is charged, when the II bus is not pressurized, the III bus is not pressurized, and the 2DL incoming line is not flowed, the automatic switching mode 6 is started, the 2DL switch is jumped through a time delay Tt6, the 2DL switch is confirmed to be jumped off, after the II bus and the III bus are not pressurized, if the I bus is pressurized, the 4DL is switched through a time delay Th6, if the I bus is not pressurized, the 3DL incoming line is pressurized, and the 3DL is switched through a time delay Th 6.

Preferably, the operation of the load bus of the interconnection switch comprises four spare power automatic switching modes, specifically the following contents:

the 3DL carries I mother and III mother to operate in a linked mode, the 1DL switch incoming line is used as a primary backup automatic switching power supply, the 2DL switch incoming line is used as a secondary backup automatic switching power supply, the charging of the automatic switching mode 3 is completed, when the I mother is not pressurized, the automatic switching mode 3 is started when the 4DL contact switch is not flowed, whether the III mother is pressurized or not is firstly detected, if the III mother is pressurized, the 4DL is switched through a delay Th3, if the III mother is not pressurized, the 3DL switch is tripped through a delay Tt3, the 3DL switch is confirmed, after the I mother and the III mother are not pressurized, if the 1DL incoming line is pressurized, the 1DL is switched through a delay Th3, the 1DL and the 4DL are switched, and when the 1DL incoming line is not pressurized and the 2DL incoming line is pressurized through a delay Th3, the 2DL, the;

the 3DL is connected with the second bus and the third bus to operate, the 2DL switch incoming line is used as a primary backup automatic switching power supply, the 1DL switch incoming line is used as a secondary backup automatic switching power supply, the automatic switching mode 7 is charged, when the second bus is not pressurized and the 5DL connection switch is not flowed, the automatic switching mode 7 is started, whether the III bus is pressurized or not is firstly detected, if the III bus is pressurized, the 5DL is switched through the delay Th7, if the III bus is not pressurized, the 3DL switch is tripped through the delay Tt7, after the II bus and the III bus are not pressurized, if the 2DL incoming line is pressurized, the 2DL and the 5DL are switched through the delay Th7, and if the 2DL incoming line is not pressurized and the 1DL incoming line is pressurized, the 1DL, the 4DL and the 5DL are switched through the delay Th 7;

2DL carries I mother, II mother and III mother to operate in a linkage manner, the inlet wire of a 1DL switch is used as a primary spare power automatic switching power supply, the inlet wire of a 3DL switch is used as a secondary spare power automatic switching power supply, the charging of the automatic switching mode 4 is completed, when the I mother is not pressurized and the 4DL interconnection switch is not in current, the automatic switching mode 4 is started, whether the II mother is pressurized or not is firstly detected, if the II mother is pressurized, the 4DL and the 5DL are switched through a delay Th4, if the II mother is not pressurized, the 2DL switch is tripped through a delay Tt4, the tripping of the 2DL switch is confirmed, after the I mother, the II mother and the III mother are not pressurized, if the inlet wire of the 1DL is pressurized, the 1DL, the 4DL and the 5DL are switched through a delay Th4, and the 3DL, and the 4DL and the 5DL are switched through a delay 4;

when 1DL is operated with I bus, II bus and III bus in a linkage mode, 2DL switch incoming lines are used as a primary spare power automatic switching power supply, 3DL switch incoming lines are used as a secondary spare power automatic switching power supply, the charging of the automatic switching mode 8 is completed, when the II bus is not pressurized, and a 5DL interconnection switch is free of current, the automatic switching mode 8 is started, whether the I bus is pressurized or not is firstly detected, if the I bus is pressurized, 4DL and 5DL are switched through a delay Th8, if the I bus is not pressurized, the 1DL switch is tripped through a delay Tt8, the 1DL switch is confirmed to be tripped, after the I bus, the II bus and the III bus are not pressurized, if the 2DL incoming lines are pressurized, the 2DL, 4DL and 5DL are switched through a delay Th8, and if the 2DL incoming lines are not pressurized, and when the 3DL incoming lines are pressurized, the 3DL, 4DL and 5DL are switched.

Preferably, the system is further provided with a locking function of the spare power automatic switching, the locking function of the spare power automatic switching comprises functions of locking the spare power automatic switching and locking each spare power automatic switching mode, a PT (potential transformer) disconnection judging function is configured, the corresponding automatic switching function is locked after the PT of the bus is disconnected, and a switch protection action, a hand trip contact and a bus voltage PT secondary idle opening auxiliary contact are added in the functions of locking the spare power automatic switching and locking each spare power automatic switching mode.

Preferably, a contact bus maintenance pressing plate is configured, and the spare power automatic switching function is locked when the contact bus is maintained.

Preferably, the corresponding backup power automatic switching mode is locked when the switch protection action or the manual operation switch is operated.

The invention has the beneficial effects that:

1. aiming at different operation modes of three-section type station service power with an interconnection bus, the logic design of spare power automatic switching is carried out in a targeted manner, 8 automatic switching modes are respectively designed for two sections of loaded buses (I bus and II bus), and the automatic switching function of the spare power supply with the power loss of the loaded buses under the normal operation mode of the incoming line switch with the buses and the special operation mode of the interconnection switch with the buses can be realized; the standby power automatic switching logic can not only realize the standby power automatic switching function when the incoming power supply disappears or the incoming switch jumps secretly to cause the power loss of the bus, but also realize the standby power automatic switching function when the contact switch jumps secretly in the bus connection operation mode;

2. the design has the contact bus maintenance pressing plate, locks the spare power automatic switching function when in switching, and adds a switch protection action, a hand trip point and a bus voltage PT secondary idle opening auxiliary point in each spare power automatic switching function, thereby preventing the expansion of accidents caused by the switching-on of the spare power automatic switching action on a fault bus and preventing the misoperation of the corresponding spare power automatic switching function caused by the manual operation of a switch or the PT secondary idle opening trip of the bus voltage.

Drawings

FIG. 1 is a schematic diagram of a three-stage auxiliary power structure with a contact bus according to the present invention;

fig. 2 is a logic diagram of the three-section auxiliary power automatic switching device with the contact bus meeting various operation conditions.

Detailed Description

The technical solutions of the present invention are further described in detail below with reference to fig. 1-2, but the scope of the present invention is not limited to the following.

The invention is designed optimally aiming at different running modes of three-section type station service power with the interconnection bus, 8 automatic switching modes are respectively designed for two sections of loaded buses (I bus and II bus), the standby power supply automatic switching function of power loss of the loaded buses under the normal running mode of the incoming line switch with the buses and the special running mode of the interconnection switch with the buses can be realized, and the reliability of power supply is ensured.

The three-section type service power structure with the communication bus is shown in figure 1. I, II, carrying out load operation on female external station internal incoming line switches 1DL and 2 DL; the III bus is used as a contact bus, has no load and is only externally connected with a construction power supply and an emergency power supply switch 3 DL.

I bus spare power automatic switching normal operation mode (1DL with I bus operation)

(1) Automatic casting mode 1

When the I bus runs independently, the III bus is used as a standby power supply of the I bus.

Charging conditions are as follows: 1) i, three-phase pressing of a mother, and III pressing of the mother;

2)1DL is in the on bit and 4DL is in the off bit.

And finishing charging after the fixed value of spare power automatic switching charging time Tc 1.

Discharge conditions: 1) III, the mother material does not meet the pressure condition and discharges in a fixed time delay way;

2)4DL is in-position;

3) TWJ anomaly of 1 DL;

4) the method comprises the following steps of starting in a locking spare power automatic switching mode 1 or locking spare power automatic switching;

5) control words or soft press plates are not thrown.

The action process is as follows: after charging is finished, when the I bus has no voltage, the III bus has voltage, and 1DL incoming line has no current, the automatic switching mode 1 is started, and the 1DL switch is tripped through a time delay Tt 1; after confirming that the 1DL switch is tripped and the I bus is not pressed, the 4DL switch is switched on through Th 1.

It should be noted that: the automatic switching mode 1 can realize the spare power automatic switching function of power failure of the I bus in the 2DL or 3DL bus-to-bus connection operation or sectional operation with the II bus and the III bus.

(2) Automatic casting mode 2

1DL is connected with I bus and III bus to operate, II bus is used as a primary spare power automatic switching power supply, and 3DL switch inlet wire is used as a secondary spare power automatic switching power supply.

Charging conditions are as follows: 1) i, pressing mother, and III pressing mother;

2)5DL is in the quantile;

3) II, mother pressing or 3DL incoming line pressing;

4)1DL and 4DL are in the on bit, and 3DL is in the off bit.

And finishing charging after the fixed value of spare power automatic switching charging time Tc 1.

Discharge conditions: 1) II, discharging in a fixed delay way when the 3DL incoming line voltage does not meet the pressure condition;

2)3DL is in-position;

3)4DL is in the quantile;

4)5DL is in-position;

5) TWJ anomaly of 1 DL;

6) the method comprises the following steps of starting a 'locking spare power automatic switching mode 2' or 'locking spare power automatic switching';

7) control words or soft press plates are not thrown.

The action process is as follows: after charging is finished, when I bus is not pressurized, III bus is not pressurized, and 1DL incoming line is not flowed, starting the automatic switching mode 2, and jumping 1DL switch by a time delay Tt 2; after the 1DL switch is confirmed to be tripped, if the I mother and the III mother have no pressure, the II mother has pressure, and 5DL is switched on through delay Th 2; if the II bus is not pressurized, and 3DL incoming line is pressurized, the delay Th2 is combined with 3 DL.

It should be noted that: the automatic switching mode 2 can realize the spare power automatic switching function of I bus power loss when the 1DL bus with I bus and III bus is in the connected operation.

I bus spare power automatic switching special operating mode (4DL with I bus operation)

(3) Automatic casting mode 3

And 3DL (three-dimensional) bus-bar and bus-bar linkage operation is carried out with I bus-bar and III bus-bar in the 3DL (dual-layer) switch, wherein the inlet wire of the 1DL switch is used as a primary spare power automatic switching power supply of the 3DL switch, and the inlet wire of the 2DL switch is used as a secondary spare power automatic switching power supply of.

Charging conditions are as follows: 1) i, pressing mother, and III pressing mother;

2)1DL incoming line has pressure or 2DL incoming line has pressure;

3)3DL and 4DL are in the on bit, and 1DL is in the off bit.

And finishing charging after the fixed value of spare power automatic switching charging time Tc 1.

Discharge conditions: 1)1DL incoming line voltage and 2DL incoming line voltage do not meet the pressure condition, and discharging is delayed after fixation;

2)1DL is in-position;

3)4DL is in the quantile;

4) a 'locking spare power automatic switching mode 3' or 'locking spare power automatic switching' is provided;

5) control words or soft press plates are not thrown.

The action process is as follows: after charging, when I mother has no voltage and 4DL connection switch has no current, starting a self-switching mode 3, firstly detecting whether III mother has voltage, and if III mother has voltage, closing 4DL by delaying Th 3; if the mother III is not pressurized, jumping the 3DL switch through a time delay Tt3 to confirm that the 3DL switch is tripped, and if the incoming line of the 1DL is pressurized after the mother I and the mother III are not pressurized, switching the 1DL and the 4DL through a time delay Th 3; if the 1DL incoming line is not pressed, and the 2DL incoming line is pressed, the 2DL, the 4DL and the 5DL are combined through time delay Th 3.

It should be noted that: the automatic switching mode 3 can realize the standby power supply automatic switching function of the power loss of the 3DL incoming line or the power loss of the 3DL incoming line caused by the stealing trip of the 3DL incoming line and the 3DL incoming line in the parallel operation of the 3DL bus with the I bus, the III bus and the II bus and in the three-section connection operation of the 3DL bus with the I bus, the II bus and the III bus.

(4) Automatic casting mode 4

When the 2DL bus with I bus, II bus and III bus operates in a linkage mode, the inlet wire of the 1DL switch is used as a primary spare power automatic switching power supply of the 2DL bus, and the inlet wire of the 3DL switch is used as a secondary spare power automatic switching power supply of the 2DL bus.

Charging conditions are as follows: 1) the first mother has pressure, the second mother has pressure and the third mother has pressure;

2)1DL incoming line has pressure or 3DL incoming line has pressure;

3)4DL and 5DL are in the on-bit, and 1DL and 3DL are in the off-bit.

And finishing charging after the fixed value of spare power automatic switching charging time Tc 1.

Discharge conditions: 1)1DL incoming line voltage and 3DL incoming line voltage do not meet the pressure condition, and discharging is delayed after fixation;

2)1DL is in-position;

3)3DL is in-position;

4) a 'locking spare power automatic switching mode 4' or a 'locking spare power automatic switching' is started;

5) control words or soft press plates are not thrown.

The action process is as follows: after charging, when I mother has no voltage and 4DL connection switch has no current, starting up the automatic switching mode 4, firstly detecting whether II mother has voltage, if II mother has voltage, closing 4DL and 5DL by delaying Th 4; if the II bus is not pressurized, jumping the 2DL switch through a time delay Tt4 to confirm that the 2DL switch is tripped, and if the 1DL incoming line is pressurized after the I bus, the II bus and the III bus are not pressurized, switching the 1DL, the 4DL and the 5DL through a time delay Th 4; if the 1DL incoming line is not pressed, and the 3DL incoming line is pressed, the 3DL, the 4DL and the 5DL are combined through time delay Th 4.

It should be noted that: the automatic switching mode 4 can realize the standby power supply automatic switching function of the I bus power loss caused by the 2DL incoming line power loss or the 2DL, 4DL and 5DL power stealing and jumping in the three-section interconnection operation of the I bus, the II bus and the III bus in the 2DL band.

Automatic bus-tie-in normal operation mode II (2DL with bus-tie-in operation II)

(1) Automatic casting mode 5

And when the 2DL belt II bus operates independently, the III bus is used as a standby power supply of the II bus.

Charging conditions are as follows: 1) the three phases of the second mother have pressure, and the third mother has pressure;

2)2DL is in the on bit and 5DL is in the off bit.

And finishing charging after the fixed value of spare power automatic switching charging time Tc 1.

Discharge conditions: 1) III, the mother material does not meet the pressure condition and discharges in a fixed time delay way;

2)5DL is in-position;

3) TWJ anomaly of 2 DL;

4) a 'locking spare power automatic switching mode 5' or 'locking spare power automatic switching' is provided;

5) control words or soft press plates are not thrown.

The action process is as follows: after charging is finished, when the II bus has no voltage, the III bus has voltage and the 2DL incoming line has no current, the automatic switching mode 5 is started, and the 2DL switch is tripped through a time delay Tt 5; after the 2DL switch is confirmed to be tripped and the II bus is not pressed, the 5DL switch is turned on through Th 5.

It should be noted that: the automatic switching mode 5 can realize the spare power automatic switching function of power failure of the 1DL or 3DL bus with I bus and III bus in the linked operation or sectional operation.

(2) Automatic casting mode 6

The 2DL bus is connected with the second bus and the third bus to operate, the first bus is used as a primary spare power automatic switching power supply of the first bus, and the incoming line of the 3DL switch is used as a secondary spare power automatic switching power supply of the second bus.

Charging conditions are as follows: 1) II, pressing mother, and III pressing mother;

2)4DL is in the quantile;

3) i, mother pressure or 3DL incoming line pressure;

4)2DL and 5DL are in the on bit, and 3DL is in the off bit.

And finishing charging after the fixed value of spare power automatic switching charging time Tc 1.

Discharge conditions: 1) i, the voltage of a mother coil and 3DL incoming line does not meet the pressure condition, and discharging is delayed after fixation;

2)3DL is in-position;

3)5DL is in the quantile;

4)4DL is in-position;

5) TWJ anomaly of 2 DL;

6) a 'locking spare power automatic switching mode 6' or 'locking spare power automatic switching' is provided;

7) control words or soft press plates are not thrown.

The action process is as follows: after charging is finished, when the voltage of the II bus is not increased, the voltage of the III bus is not increased, and the current of the 2DL incoming line is not increased, the automatic switching mode 6 is started, and the 2DL switch is tripped through a time delay Tt 6; after the 2DL switch is determined to be tripped, and the II mother and the III mother have no pressure, if the I mother has pressure, the 4DL is switched on by the delay Th 6; if I mother is not pressure and 3DL incoming line is pressure, the delay Th6 is closed to 3 DL.

It should be noted that: the automatic switching mode 6 can realize the spare power automatic switching function of II bus power loss when 2DL is in operation with II bus and III bus in a connected mode.

Special operation mode of automatic bus transfer II (5DL with II bus operation)

(3) Automatic casting mode 7

When the 3DL bus with the second bus and the third bus runs in a connected mode and is parallel to the first bus, the 2DL switch inlet wire is used as a primary spare power automatic switching power supply of the 3DL bus, and the first bus is used as a secondary spare power automatic switching power supply of the 3DL bus.

Charging conditions are as follows: 1) II, pressing mother, and III pressing mother;

2) i, mother pressure or 2DL incoming line pressure;

3)3DL and 5DL are in the on-position, and 2DL and 4DL are in the off-position.

And finishing charging after the fixed value of spare power automatic switching charging time Tc 1.

Discharge conditions: 1) i, mother voltage and 2DL incoming line voltage do not meet the voltage condition, and discharge is delayed after fixation;

2)2DL is in-position;

3)5DL is in the quantile;

4)4DL is in-position;

5) the method comprises the following steps of starting in a locking spare power automatic switching mode 7 or locking spare power automatic switching;

6) control words or soft press plates are not thrown.

The action process is as follows: after charging, when the II bus is not pressurized and the 5DL connection switch is not in current, starting the automatic switching mode 7, firstly detecting whether the III bus is pressurized, and if the III bus is pressurized, closing 5DL through time delay Th 7; if the III bus is not pressurized, jumping the 3DL switch through a time delay Tt7 to confirm that the 3DL switch is tripped, and if the 2DL incoming line is pressurized after the II bus and the III bus are not pressurized, switching the 2DL and the 5DL through a time delay Th 7; if the 2DL incoming line is not pressurized, and the I mother is pressurized, the delay Th7 is delayed, and 4DL and 5DL are performed.

It should be noted that: the automatic switching mode 7 can realize the automatic switching function of the standby power supply of the power loss of the second bus caused by the power loss of the 3DL incoming line when the 3DL bus with the second bus, the third bus and the first bus run in parallel or the power loss of the second bus caused by the power loss of the 3DL bus and the 5DL stealing jump, and simultaneously, in order to prevent the conflict with the automatic switching mode 3 when the 3DL bus with the third bus, the second bus and the third bus runs in a connecting mode, 4DL position locking is added.

(4) Automatic casting mode 8

When the 1DL bus with I bus, II bus and III bus operates in a linkage mode, the 2DL switch incoming line is used as a primary spare power automatic switching power supply, and the 3DL switch incoming line is used as a secondary spare power automatic switching power supply.

Charging conditions are as follows: 1) the first mother has pressure, the second mother has pressure and the third mother has pressure;

2)2DL incoming line has pressure or 3DL incoming line has pressure;

3)4DL and 5DL are in the on-bit, and 2DL and 3DL are in the off-bit.

And finishing charging after the fixed value of spare power automatic switching charging time Tc 1.

Discharge conditions: 1)2DL incoming line voltage and 3DL incoming line voltage do not meet the pressure condition, and discharging is delayed after fixation;

2)2DL is in-position;

3)3DL is in-position;

4) a 'locking spare power automatic switching mode 8' or 'locking spare power automatic switching' is provided;

5) control words or soft press plates are not thrown.

The action process is as follows: after charging, when the II bus is not pressurized and the 5DL interconnection switch is not in current, the automatic switching mode 8 is started, whether the I bus is pressurized is detected firstly, and if the I bus is pressurized, the 4DL and the 5DL are combined by delaying Th 8; if the I bus is not pressurized, the 1DL switch is tripped through a time delay Tt8, the 1DL switch is tripped, and after the I bus, the II bus and the III bus are not pressurized, if the 2DL incoming line is pressurized, the 2DL, the 4DL and the 5DL are switched through a time delay Th 8; if the 2DL incoming line is not pressed, and the 3DL incoming line is pressed, the 3DL, the 4DL and the 5DL are combined through time delay Th 8.

It should be noted that: the automatic switching mode 8 can realize the standby power supply automatic switching function of the power loss of the 1DL incoming line or the power loss of the II bus caused by the stealing trip of the 1DL incoming line, the 1DL incoming line and the 1DL incoming line in the three-section interconnection operation of the I bus, the II bus and the III bus.

The standby power automatic switching logic is three-section type auxiliary power automatic switching logic with a contact bus meeting various operation conditions, belongs to the technical field of relay protection, and is designed with 8 automatic switching modes for two sections of loaded buses (I bus and II bus) aiming at various operation modes of the three-section type auxiliary power with the contact bus, so that the standby power automatic switching function of power loss of the loaded bus under the normal operation mode of the incoming line switch with the bus and the special operation mode of the contact switch with the bus can be realized, and the reliability of power supply is ensured. The standby power supply automatic switching function when the power of the bus is lost due to disappearance of the incoming power supply or stealing and jumping of the incoming switch and the standby power supply automatic switching function of stealing and jumping of the connecting switch under the bus connection operation mode can be realized. A contact bus maintenance pressing plate is added in the spare power automatic switching logic, the spare power automatic switching function is locked during switching, and a switch protection action, a hand trip contact and a bus voltage PT secondary air-break auxiliary contact are added in each spare power automatic switching function, so that the false operation of the corresponding spare power automatic switching function is prevented.

The foregoing is merely a preferred embodiment of the invention, it being understood that the embodiments described are part of the invention, and not all of it. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. The invention is not intended to be limited to the forms disclosed herein, but is to be accorded the widest scope consistent with the principles and novel features disclosed herein. And that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The three-section type auxiliary power automatic switching method is characterized by comprising a normal operation mode and a special operation mode, wherein the normal operation mode is that a service entrance switch operates with a load bus, the special operation mode is that the contact switch operates with the load bus, the service entrance switches 1DL and 2DL operate with loads in a first bus external connection station and a second bus external connection station, the third bus is taken as the contact bus and does not have a load, and the first bus and the second bus are connected with a construction power supply and an emergency power supply switch 3 DL.

2. The three-section auxiliary power automatic switching method with the interconnection bus of claim 1, wherein the operation of the load bus of the incoming line switch comprises four automatic switching modes, specifically comprising the following steps:

1DL independently operates with I bus, the III bus is used as a standby power supply of the I bus, the charging in the automatic switching mode 1 is completed, when the I bus is not pressurized, the III bus is pressurized, and the 1DL incoming line is not flowed, the automatic switching mode 1 is started, the 1DL switch is tripped through a time delay Tt1, the 1DL switch is determined to be tripped, and after the I bus is not pressurized, the Th1 is switched to the 4DL switch;

when the 2DL bus operates independently with the II bus, the III bus is used as a standby power supply of the II bus, the charging in the automatic switching mode 5 is completed, when the II bus is not pressurized, the III bus is pressurized, and the 2DL incoming line does not flow, the automatic switching mode 5 is started, the 2DL switch is tripped through a time delay Tt5, the 2DL switch is determined to be tripped, and after the II bus is not pressurized, the 5DL switch is switched through the Th 5;

1DL carries I mother and III mother to operate in a linked mode, II mother is used as a primary spare power automatic switching power supply, 3DL switch incoming line is used as a secondary spare power automatic switching power supply, the charging of the automatic switching mode 2 is completed, when I mother is not voltage, III mother is not voltage, and 1DL incoming line is not current, the automatic switching mode 2 is started, 1DL switch is tripped through time delay Tt2, 1DL switch tripping is confirmed, after I mother and III mother are not voltage, if II mother is voltage, 5DL is switched through time delay Th2, if II mother is not voltage, 3DL incoming line is voltage, 3DL is switched through time delay Th 2;

the 2DL is connected with the II bus and the III bus to operate, the I bus is used as a primary spare power automatic switching power supply, the 3DL switch incoming line is used as a secondary spare power automatic switching power supply, the automatic switching mode 6 is charged, when the II bus is not pressurized, the III bus is not pressurized, and the 2DL incoming line is not flowed, the automatic switching mode 6 is started, the 2DL switch is jumped through a time delay Tt6, the 2DL switch is confirmed to be jumped off, after the II bus and the III bus are not pressurized, if the I bus is pressurized, the 4DL is switched through a time delay Th6, if the I bus is not pressurized, the 3DL incoming line is pressurized, and the 3DL is switched through a time delay Th 6.

3. The three-section auxiliary power automatic switching method with the interconnection bus of claim 1, wherein the operation of the interconnection switch with the load bus comprises four automatic switching modes, specifically comprising the following steps:

the 3DL carries I mother and III mother to operate in a linked mode, the 1DL switch incoming line is used as a primary backup automatic switching power supply, the 2DL switch incoming line is used as a secondary backup automatic switching power supply, the charging of the automatic switching mode 3 is completed, when the I mother is not pressurized, the automatic switching mode 3 is started when the 4DL contact switch is not flowed, whether the III mother is pressurized or not is firstly detected, if the III mother is pressurized, the 4DL is switched through a delay Th3, if the III mother is not pressurized, the 3DL switch is tripped through a delay Tt3, the 3DL switch is confirmed, after the I mother and the III mother are not pressurized, if the 1DL incoming line is pressurized, the 1DL is switched through a delay Th3, the 1DL and the 4DL are switched, and when the 1DL incoming line is not pressurized and the 2DL incoming line is pressurized through a delay Th3, the 2DL, the;

the 3DL is connected with the second bus and the third bus to operate, the 2DL switch incoming line is used as a primary backup automatic switching power supply, the 1DL switch incoming line is used as a secondary backup automatic switching power supply, the automatic switching mode 7 is charged, when the second bus is not pressurized and the 5DL connection switch is not flowed, the automatic switching mode 7 is started, whether the III bus is pressurized or not is firstly detected, if the III bus is pressurized, the 5DL is switched through the delay Th7, if the III bus is not pressurized, the 3DL switch is tripped through the delay Tt7, after the II bus and the III bus are not pressurized, if the 2DL incoming line is pressurized, the 2DL and the 5DL are switched through the delay Th7, and if the 2DL incoming line is not pressurized and the 1DL incoming line is pressurized, the 1DL, the 4DL and the 5DL are switched through the delay Th 7;

2DL carries I mother, II mother and III mother to operate in a linkage manner, the inlet wire of a 1DL switch is used as a primary spare power automatic switching power supply, the inlet wire of a 3DL switch is used as a secondary spare power automatic switching power supply, the charging of the automatic switching mode 4 is completed, when the I mother is not pressurized and the 4DL interconnection switch is not in current, the automatic switching mode 4 is started, whether the II mother is pressurized or not is firstly detected, if the II mother is pressurized, the 4DL and the 5DL are switched through a delay Th4, if the II mother is not pressurized, the 2DL switch is tripped through a delay Tt4, the tripping of the 2DL switch is confirmed, after the I mother, the II mother and the III mother are not pressurized, if the inlet wire of the 1DL is pressurized, the 1DL, the 4DL and the 5DL are switched through a delay Th4, and the 3DL, and the 4DL and the 5DL are switched through a delay 4;

when 1DL is operated with I bus, II bus and III bus in a linkage mode, 2DL switch incoming lines are used as a primary spare power automatic switching power supply, 3DL switch incoming lines are used as a secondary spare power automatic switching power supply, the charging of the automatic switching mode 8 is completed, when the II bus is not pressurized, and a 5DL interconnection switch is free of current, the automatic switching mode 8 is started, whether the I bus is pressurized or not is firstly detected, if the I bus is pressurized, 4DL and 5DL are switched through a delay Th8, if the I bus is not pressurized, the 1DL switch is tripped through a delay Tt8, the 1DL switch is confirmed to be tripped, after the I bus, the II bus and the III bus are not pressurized, if the 2DL incoming lines are pressurized, the 2DL, 4DL and 5DL are switched through a delay Th8, and if the 2DL incoming lines are not pressurized, and when the 3DL incoming lines are pressurized, the 3DL, 4DL and 5DL are switched.

4. The method for automatically switching the auxiliary power supply equipment of three sections with the interconnection bus of any one of claims 1 to 3, wherein a locking function of the spare power automatic switching is further provided, the locking function of the spare power automatic switching comprises functions of locking the spare power automatic switching and locking each spare power automatic switching mode, a PT disconnection judging function is configured, and a switch protection action, a hand trip contact and a bus voltage PT secondary air-break auxiliary contact are added in the functions of locking the spare power automatic switching and locking each spare power automatic switching mode after the bus PT is disconnected.

5. The method for the three-stage auxiliary power automatic switching with the contact bus as claimed in claim 4, wherein a contact bus overhaul pressure plate is configured to lock the automatic switching function when the contact bus is overhauled.

6. The method according to claim 4, characterized in that the corresponding backup automatic switching mode is locked during the switch protection action or the manual operation of the switch.

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