CN207426802U - A kind of one mother power distribution control system of three inlet wire - Google Patents

Abstract

The utility model discloses a kind of one mother power distribution control systems of three inlet wire, including the first electric power incoming line, second source inlet wire, one section of busbar, two sections of busbares and generator inlet wire, and the busbar breaker connected between one section of busbar and two sections of busbares, the first breaker is connected between one section of busbar and the first electric power incoming line, the second breaker is connected between two sections of busbares and second source inlet wire, the 3rd breaker is connected between two sections of busbares and generator inlet wire.The utility model realizes substitution problem of the Microcomputer Protection device in three inlet wires, one busbar electric distribution system, simplifies circuit, reduces cost, and repair is facilitated to replace.

Description

A kind of one mother power distribution control system of three inlet wire

Technical field

The utility model is related to distribution technique fields, and in particular to a kind of one mother power distribution control system of three inlet wire.

Background technology

Powering mode runs for sectionalized single busbar connection, and normal power supply is the one section of bus section operation of each band of two transformers；When After any road electric power incoming line power failure tripping, segmentation contact automatically engages, and runback is partition running after incoming call；When two road power supplys lose After pressure, generator automatically engages, generator lead-in circuit breaker automatic closing, changes behind city power recovery and is supplied by alternating current.Such power supply Pattern needs 2 Microcomputer Protection devices that could realize, a Microcomputer Protection is used for for two-in-one prepared auto restart, another Microcomputer Protection The prepared auto restart of two inlet wires, one mother, the technology volume is big, heavy, price, and such as a Microcomputer Protection, which is broken, needs integral replacing, Maintenance cost is high, and independent installation room is designed in switchgear.

Utility model content

For the deficiency in the presence of the prior art, the utility model provides a kind of one mother of three inlet wire and matches somebody with somebody electric control system System solves the problems, such as to use simplification of the Microcomputer Protection device in three inlet wires, one busbar electric distribution system in powering mode.

To achieve the above object, the utility model employs following technical solution：A kind of one mother of three inlet wire is with automatically controlled System processed, including the first electric power incoming line, second source inlet wire, one section of busbar, two sections of busbares and generator inlet wire, one section of mother Busbar breaker is connected between line and two sections of busbares, the first breaker is connected between one section of busbar and the first electric power incoming line, The second breaker is connected between two sections of busbares and second source inlet wire, the 3rd is connected between two sections of busbares and generator inlet wire Breaker；

Further include the first power monitoring relay, second source supervisory relay, the 3rd power monitoring relay, mother electricity Power transfer relay；First power supply closing time relay, second source closing time relay, the 3rd power supply closing time after Electric appliance and mother closing time relay；First power source trip intermediate relay, second source tripping intermediate relay, the 3rd electricity Trip intermediate relay and mother tripping intermediate relay in source；First power supply signal extension intermediate relay, second source signal Extend intermediate relay, the 3rd power supply signal extension intermediate relay and busbar breaker signal extension intermediate relay；

First breaker, the second breaker and the 3rd breaker have the function of secondary end of incoming cables detection divide-shut brake；Institute The coil for stating the first power monitoring relay, second source supervisory relay and the 3rd power monitoring relay is corresponding in turn to Electricity is taken in the first electric power incoming line, second source inlet wire and generator inlet wire；

The first power supply signal extension intermediate relay, second source signal extension intermediate relay, the 3rd power supply letter Number extension intermediate relay and the coil of busbar breaker signal extension intermediate relay and the normally opened contact string of respective breaker Connection；

Electric interlock relation between above-mentioned electrical equipment is：

It is in parallel that first power circuit breaker first extends normally-closed contact to the second couple of extension normally-closed contact and busbar breaker Afterwards again with the 3rd breaker second to accessing the second closing circuit of circuit breaker after extension normally-closed contact series connection；First breaker second The 3rd closing circuit of circuit breaker is accessed after extending normally-closed contact and the extension normally-closed contact series connection of the second breaker second；Second open circuit Device the 3rd extends often after extending normally-closed contact and the extension normally-closed contact series connection of the 3rd breaker the 3rd with the first breaker the 3rd again Busbar breaker closing circuit is accessed after closed contact parallel connection；Second breaker first extends normally-closed contact and the 3rd breaker first Extension normally-closed contact series connection after again with busbar breaker first extend normally-closed contact it is in parallel after access the first closing circuit of circuit breaker；

After first pair of normally opened contact of the first power monitoring relay is connected with second pair of normally-closed contact of the first breaker It accesses on the first closing time relay coil, the first couple delay normally opened contact of the first closing time relay seals in first and breaks The closing circuit of road device；Second pair of normally-closed contact of the first power monitoring relay and the 3rd pair of normally opened contact of the first breaker After series connection on the first tripping of access intermediate relay coil, first pair of normally opened contact of the first tripping intermediate relay seals in first The sub-gate circuit of breaker；

After first pair of normally opened contact of second source supervisory relay is connected with second pair of normally-closed contact of the second breaker It accesses on the second closing time relay coil, the first couple delay normally opened contact of the second closing time relay seals in second and breaks The closing circuit of road device；Second pair of normally-closed contact of second source supervisory relay and the 3rd pair of normally opened contact of the second breaker After series connection on the second tripping of access intermediate relay coil, first pair of normally opened contact of the second tripping intermediate relay seals in second The sub-gate circuit of breaker；

3rd pair of normally-closed contact of first pair of normally opened contact the first supervisory relay of series connection of the 3rd power monitoring relay Connect again afterwards the second supervisory relay the 3rd pair of normally-closed contact after finally connect with second pair of normally-closed contact of the 3rd breaker It accesses afterwards on the 3rd closing time relay coil, the first couple delay normally opened contact of the 3rd closing time relay seals in the 3rd The closing circuit of breaker；4th pair of normally opened contact of the first power monitoring relay and the 4th of second source supervisory relay the The 3rd tripping intermediate relay coil of access after connecting to the 3rd pair of normally opened contact with the 3rd breaker after normally opened contact parallel connection On, first pair of normally opened contact of the 3rd tripping intermediate relay seals in the sub-gate circuit of the 3rd breaker；

4th pair of extension normally-closed contact of the 4th pair of extension normally opened contact the second breaker of series connection of the first breaker is formed The first branch, the 5th pair of extension normally opened contact of the 5th pair of extension normally-closed contact the second breaker of series connection of the first breaker are formed Mother is accessed after the second pair of normally-closed contact series connection for busbar breaker of connecting after the second branch, the first branch and the second branch parallel connection On closing time relay coil, the first couple delay normally opened contact of mother closing time relay seals in the conjunction of busbar breaker Lock circuit；5th pair of normally opened contact of the first power monitoring relay and the 5th pair of normally opened contact of second source supervisory relay It is accessed after connecting after series connection with the 3rd pair of normally opened contact of busbar breaker on mother tripping intermediate relay coil, mother tripping First pair of normally opened contact of intermediate relay seals in the sub-gate circuit of busbar breaker.

Compared with the prior art, the utility model has the advantages that：

The utility model realizes substitution problem of the Microcomputer Protection device in three inlet wires, one busbar electric distribution system, instead of microcomputer Protector is applied to prepared auto restart divide-shut brake with the much smaller intermediate relay of volume, the time relay, eliminates Microcomputer Protection device Room is installed, product cost is reduced, improves production efficiency；Each relay can be individually replaced, and reduce single failure repair Expense.

Description of the drawings

Fig. 1 is the utility model main circuit；

Fig. 2 is the control figure of first breaker of the utility model.

Fig. 3 is the control figure of second breaker of the utility model.

Fig. 4 is the control figure of the 3rd breaker of the utility model.

Fig. 5 is the control figure of the busbar breaker of the utility model.

Specific embodiment

The utility model is described further below in conjunction with the accompanying drawings.

As shown in Fig. 1~Fig. 5, FU is protection fuse.In attached drawing, normally-closed contact or normally opened contact both sides number are to connect Line point.One mother power distribution control system of a kind of three inlet wire described in the utility model, including the first electric power incoming line 1L1, the second electricity The mother connected between source inlet wire 2L1, one section of busbar, two sections of busbares and generator inlet wire 3L1 and one section of busbar and two sections of busbares Join breaker 4QF, the first breaker 1QF, two sections of busbares and the second electricity are connected between one section of busbar and the first electric power incoming line 1L1 The second breaker 2QF is connected between the inlet wire 2L1 of source, the 3rd breaker is connected between two sections of busbares and generator inlet wire 3L1 3QF；

Further include first, second, third power monitoring relay, mother power transfer relay, first, second, third Power supply and mother closing time relay；First, second, third power supply and mother tripping intermediate relay；First, secondth, Three power supplys and busbar breaker signal extension intermediate relay.

There is secondary end of incoming cables to detect division by the first breaker 1QF, the second breaker 2QF and the 3rd breaker 3QF Lock function；The control loop of the first, second, and third power monitoring relay, which is corresponding in turn to, takes electricity in the first power supply Inlet wire 1L1, second source inlet wire 2L1 and generator inlet wire 3L1, this is designed for ensureing the first breaker 1QF, the second breaker Breaker when the end of incoming cables out of power of 2QF and the 3rd breaker 3QF is gate-dividing state；Mother power transfer relay 4KA1 takes electricity In on II sections of busbares, when II sections of busbares are charged, 4KA1 coil energized actions, first pair of normally opened contact is closed, and mother controls back Road is charged；When I sections of busbares are charged, 4L1 takes electricity to make mother control loop charged to normally-closed contact by 4,KA1 second；Remaining Control relay takes electricity in respective electric power incoming line side to ensure normal operation.

Fig. 2 shows that the physical circuit connection relation of divide-shut brake function is detected in the secondary end of incoming cables of the first breaker 1QF For：Control system further includes the first power monitoring relay 1KA1, the first closing time relay 1SJ, the first breaker signal Extend the tripping intermediate relays of intermediate relay 1KA2 and first 1TJ；The first couple of the first power monitoring relay 1KA1 Normally opened contact connects the first breaker 1QF second to accessing the coil of the first closing time relay 1SJ after normally-closed contact, and first The normally opened delay of the first couple of closing time relay 1SJ, which is got an electric shock, is series at the closing circuit of the first breaker 1QF, and S2 is to close a floodgate back The port on road；The 3rd pair of normally opened contact of the first breaker 1QF of second pair of normally-closed contact series connection of first supervisory relay 1KA1 The coil of the first tripping intermediate relay of access 1TJ afterwards, first pair of normally opened contact of the first tripping intermediate relay 1TJ are series at The sub-gate circuit of first breaker 1QF, the S4 of specific first breaker 1QF are the port of sub-gate circuit, and S1 is common port, P1, P2 is circuitbreaker control power supply；1SA is hauls oneself willingly into switching switch manually, and 1SB1 is closing by hand, and 1SB2 is hand trip(ping) button；It is disconnected The status contacts that the closing circuit of road device seals in other breakers are used for electric interlock；First closing time relay 1SJ in Fig. 2 The first couple be delayed the electrical interlocking contact (extension of the second breaker 2QF the of connecting between normally opened contact and the first closing circuit A pair of of normally-closed contact 2KA2:1 and the 3rd breaker 3QF first couple of normally-closed contact 3KA2 of extension:1 series connection after with busbar breaker First couple of normally-closed contact 4KA2 of extension of 4QF:1 is in parallel).When the first electric power incoming line 1L1 is charged, the first power monitoring relay 1KA1 is closed, first couple of normally opened contact 1KA1:1 is closed, and the first breaker 1QF is in gate-dividing state, second pair of normally-closed contact 1QF:2 are closed, and the first closing time relay 1SJ is closed, first pair of timing closing contact timing closing of 1SJ, the first open circuit The closing circuit of device 1QF is closed after the delay of the first closing time relay, and the first breaker 1QF closes a floodgate；When the first power supply When inlet wire 1L1 is not charged, the first supervisory relay 1KA1 is disconnected, second couple of normally-closed contact 1KA1 of 1KA1:2 recover to be closed, this When the first breaker 1QF be in "on" position, the 3rd couple of normally opened contact 1QF:3 are closed, and the first tripping intermediate relay 1TJ obtains electric It is closed, the first normally opened contact 1TJ of 1TJ:1 is closed, and the sub-gate circuit of the first breaker obtains electric, the first breaker 1QF separating brakes.

Fig. 2, Fig. 3 are shown：The physical circuit of the secondary end of incoming cables detection divide-shut brake function of the second breaker 2QF Connection relation is：Control system further includes control system and further includes the second supervisory relay 2KA1, the second closing time relay 2SJ, the second breaker signal tripping intermediate relays of extension intermediate relay 2KA2 and second 2TJ；The second monitoring relay First couple of normally opened contact 2KA1 of device 2KA1:1 the second breaker 2QF second of series connection is to normally-closed contact 2QF:Access second is closed after 2 The coil of lock time relay 2SJ, the normally opened electric shock 2SJ of the first couple of the second closing time relay 2SJ:1, which is series at second, breaks The closing circuit of road device 2QF, the first couple of the second closing time relay 2SJ is delayed normally opened contact 2SJ in Fig. 3:1 with closing a floodgate back Connecting between road, (the first power circuit breaker 1QF first is to extending normally-closed contact 1KA2 for electrical interlocking contact:1 and busbar breaker The second couple of 4QF extends normally-closed contact 4KA2:After 2 parallel connections normally-closed contact 3KA2 is extended with the second couple of the 3rd breaker 3QF again: 2 series connection)；Second couple of normally-closed contact 2KA1 of second supervisory relay 2KA1:The 3rd pair of 2 the second breaker 2QF of series connection is normally opened Contact 2QF:The coil of the second tripping intermediate relay of access 2TJ, the first couple of the second tripping intermediate relay 2TJ are normally opened after 3 Contact 2TJ:1 is series at the sub-gate circuit of the second breaker 2QF.The S2 of second breaker 2QF is the port of closing circuit, and S4 is Sub-gate circuit port, S1 are common port, and P1, P2 are circuitbreaker control power supply；For 2SA to haul oneself willingly into switching switch manually, 2SB1 is hand Dynamic switch knob, 2SB2 are hand trip(ping) button.

Fig. 4 is shown：The physical circuit connection of the secondary end of incoming cables detection divide-shut brake function of the 3rd breaker 3QF Relation is：Control system further include control system further include the 3rd supervisory relay 3KA1, the 3rd closing time relay 3SJ, 3rd breaker signal extends the tripping intermediate relays of intermediate relay 3KA2 and the 3rd 3TJ；The 3rd power monitoring relay First couple of normally opened contact 3KA1 of device 3KA1:The 3rd couple of normally-closed contact 1KA1 of 1 the first supervisory relay 1KA1 of series connection:After 3 again Connect the 3rd couple of normally-closed contact 2KA1 of the second supervisory relay 2KA1:It is finally normally closed with the second couple of the 3rd breaker 3QF after 3 Contact 3QF:It is accessed after 2 series connection on the 3rd closing time relay 3SJ coils, the first couple of the 3rd closing time relay 3SJ Be delayed normally opened contact 3SJ:1 seals in the closing circuit of the 3rd breaker 3QF, the first couple delay normally opened contact 3SJ of 3SJ:1 with closing Connecting between lock circuit, (the first breaker 1QF second is to extending normally-closed contact 1KA2 for electrical interlocking contact:2 and second breaker 2QF second is to extending normally-closed contact 2KA2：2 series connection)；The 4th couple of normally opened contact 1KA1 of first power monitoring relay 1KA1:4 With the 4th couple of normally opened contact 2KA1 of second source supervisory relay 2KA1:The 3rd pair of the 3rd breaker 3QF is sealed in after 4 parallel connections Normally opened contact 3QF:After 3 series connection on the 3rd tripping intermediate relay 3TJ coils of access, the of the 3rd tripping intermediate relay 3TJ A pair of of normally opened contact 3TJ:1 seals in the sub-gate circuit of the 3rd breaker 3QF.The S2 of 3rd breaker 3QF is the end of closing circuit Mouthful, S4 is sub-gate circuit port, and S1 is common port, and P1, P2 are circuitbreaker control power supply；3SA is to haul oneself willingly into switching switch manually, 3SB1 is closing by hand button, and 3SB2 is hand trip(ping) button.

Fig. 5 is shown：The physical circuit connection of the secondary end of incoming cables detection divide-shut brake function of the busbar breaker 4QF Relation is：Control system further includes Switching power relay 4KA1, mother closing time relay 4SJ, busbar breaker signal Extend intermediate relay 4KA2 and mother tripping intermediate relay 4TJ；The coil of mother power transfer relay 4KA1 passes through 4L11 takes electricity on II sections of busbares, when II sections of busbares are charged, 4KA1 coil energized actions, and first couple of normally opened contact 4KA1:1 closes It closes, mother control loop is charged；When I sections of busbares are charged, 4L1 takes electricity by 4,KA1 second to normally-closed contact 4KA1:2 make mother Control loop is charged；The 4th couple of extension normally opened contact 1KA2 of the first breaker 1QF:The of 4 the second breaker 2QF of series connection Four couples of extension normally-closed contact 2KA2:The 5th couple of extension normally-closed contact 1KA2 of 4, the first breaker 1QF:5 the second breakers of series connection The 5th couple of extension normally opened contact 2KA2 of 2QF:5, it is above-mentioned connect respectively after it is in parallel again after it is normal with the second couple of busbar breaker 4QF Closed contact 4QF:It is accessed after 2 series connection on mother closing time relay 4SJ coils, the first couple of mother closing time relay prolongs When normally opened contact 4SJ:1 seals in the closing circuit of busbar breaker, 4SJ:Electric interlock of connecting between 1 and mother closing circuit touches Point (the 3rd couple of extension normally-closed contact 2KA2 of the second breaker 2QF:The 3rd pair of extension normally-closed contact of 3 and the 3rd breaker 3QF 3KA2:After 3 series connection normally-closed contact 1KA2 is extended with the 3rd pair of the first breaker 1QF again:3 is in parallel)；First power monitoring relay The 5th couple of normally opened contact 1KA1 of device 1KA1：The 5th couple of normally opened contact 2KA1 of 5 and second source supervisory relay 2KA1:5 strings After connection with the 3rd couple of normally opened contact 4QF of busbar breaker 4QF:The coil of mother tripping intermediate relay 4TJ is accessed after 3 series connection On, first couple of normally opened contact 4TJ of mother tripping intermediate relay 4TJ:1 seals in the sub-gate circuit of busbar breaker 4QF；Mother The S2 of breaker 4QF is the port of closing circuit, and S4 is sub-gate circuit port, and S1 is common port, and P1, P2 are breaker operator electricity Source；4SA is hauls oneself willingly into switching switch manually, and 4SB1 is closing by hand button, and 4SB2 is hand trip(ping) button.

Fig. 5 is shown：First supervisory relay 1KA1 takes the first electric power incoming line 1L1 of electricity, when the first electric power incoming line 1L1 out of power When, second source inlet wire 2L1 is charged, and the first supervisory relay 1KA1 is disconnected, second couple of normally-closed contact 1KA1:2 are closed, and at this time the One breaker 1QF is in "on" position, the 3rd couple of normally opened contact 1QF:3 are closed, and the first tripping intermediate relay 1TJ is closed, and first Breaker 1QF trip(ping) circuits obtain electric, the first circuit breaker trip, one section of busbar dead electricity；The second supervisory relay 2KA1 is closed at this time, Second breaker 2QF is in "on" position, the 5th couple of extension normally-closed contact 1KA2 of the first breaker 1QF:5 recover closure state, The 5th couple of extension normally-closed contact 2KA2 of second breaker 2QF:5 are closed, and mother closing time relay 4SJ is closed, and mother is broken The closing circuit of road device 4QF forms access, and busbar breaker 4QF closes a floodgate, and one section of busbar is charged；When two-way alternating current recovers (the 5th couple of normally opened contact 1KA1 of the first power monitoring relay 1KA1:The 5th pair of 5 and second source supervisory relay 2KA1 Normally opened contact 2KA1：5 are closed, and busbar breaker 4QF is in "on" position, the 3rd couple of normally opened contact 4QF:3 are closed, at this time mother Circuit breaker trip intermediate relay 4TJ is connected, the first normally opened contact 4TJ:1 is closed, and the sub-gate circuit of busbar breaker 4QF is formed Access, busbar breaker tripping.

Finally illustrate, above example is merely intended for describing the technical solutions of the present application, but not for limiting the present application, although ginseng The utility model is described in detail according to preferred embodiment, it will be understood by those of ordinary skill in the art that, it can be to this The technical solution of utility model is modified or replaced equivalently, without departing from the objective and model of technical solutions of the utility model It encloses, should all cover among the right of the utility model.

Claims (5)

1. a kind of three inlet wires, one mother power distribution control system, which is characterized in that including the first electric power incoming line, second source inlet wire, One section of busbar, two sections of busbares and generator inlet wire, are connected with busbar breaker between one section of busbar and two sections of busbares, one section The first breaker is connected between busbar and the first electric power incoming line, it is disconnected that second is connected between two sections of busbares and second source inlet wire Road device is connected with the 3rd breaker between two sections of busbares and generator inlet wire；

The first power monitoring relay, second source supervisory relay, the 3rd power monitoring relay, mother power supply is further included to cut Change relay；First power supply closing time relay, second source closing time relay, the 3rd power supply closing time relay With mother closing time relay；First power source trip intermediate relay, second source tripping intermediate relay, the 3rd power supply are jumped Lock intermediate relay and mother tripping intermediate relay；First power supply signal extension intermediate relay, second source signal extension Intermediate relay, the 3rd power supply signal extension intermediate relay and busbar breaker signal extension intermediate relay；

First breaker, the second breaker and the 3rd breaker have the function of secondary end of incoming cables detection divide-shut brake；Described The coil of one power monitoring relay, second source supervisory relay and the 3rd power monitoring relay, which is corresponding in turn to, takes electricity In the first electric power incoming line, second source inlet wire and generator inlet wire；

The first power supply signal extension intermediate relay, second source signal extension intermediate relay, the 3rd power supply signal expand Open up the normally opened contact series connection of the coil and respective breaker of intermediate relay and busbar breaker signal extension intermediate relay；

Electric interlock relation between above-mentioned electrical equipment is：

After the second couple extension normally-closed contact parallel connection of first power circuit breaker first to extending normally-closed contact and busbar breaker again With the 3rd breaker second to accessing the second closing circuit of circuit breaker after extension normally-closed contact series connection；First breaker second extends The 3rd closing circuit of circuit breaker is accessed after normally-closed contact and the extension normally-closed contact series connection of the second breaker second；Second breaker It is normally closed tactile with the extension of the first breaker the 3rd again after three extension normally-closed contacts and the extension normally-closed contact series connection of the 3rd breaker the 3rd Busbar breaker closing circuit is accessed after point is in parallel；Second breaker first extends normally-closed contact and the 3rd breaker first extends Normally-closed contact series connection after again with busbar breaker first extend normally-closed contact it is in parallel after access the first closing circuit of circuit breaker；

First pair of normally opened contact of the first power monitoring relay accesses after connecting with second pair of normally-closed contact of the first breaker On first closing time relay coil, the first couple delay normally opened contact of the first closing time relay seals in the first breaker Closing circuit；Second pair of normally-closed contact of the first power monitoring relay is connected with the 3rd pair of normally opened contact of the first breaker Afterwards on the first tripping of access intermediate relay coil, first pair of normally opened contact of the first tripping intermediate relay seals in the first open circuit The sub-gate circuit of device；

First pair of normally opened contact of second source supervisory relay accesses after connecting with second pair of normally-closed contact of the second breaker On second closing time relay coil, the first couple delay normally opened contact of the second closing time relay seals in the second breaker Closing circuit；Second pair of normally-closed contact of second source supervisory relay is connected with the 3rd pair of normally opened contact of the second breaker Afterwards on the second tripping of access intermediate relay coil, first pair of normally opened contact of the second tripping intermediate relay seals in the second open circuit The sub-gate circuit of device；

After 3rd pair of normally-closed contact of first pair of normally opened contact the first supervisory relay of series connection of the 3rd power monitoring relay again Connect the second supervisory relay the 3rd pair of normally-closed contact after finally connect and be followed by with second pair of normally-closed contact of the 3rd breaker Enter on the 3rd closing time relay coil, the first couple delay normally opened contact of the 3rd closing time relay seals in the 3rd open circuit The closing circuit of device；4th pair of normally opened contact of the first power monitoring relay is normal with the 4th pair of second source supervisory relay It opens after connecting with the 3rd pair of normally opened contact of the 3rd breaker after contact shunt on the 3rd tripping intermediate relay coil of access, the First pair of normally opened contact of three tripping intermediate relays seals in the sub-gate circuit of the 3rd breaker；

4th pair of extension normally-closed contact of the 4th pair of extension normally opened contact the second breaker of series connection of the first breaker forms first Branch, the 5th pair of extension normally opened contact of the 5th pair of extension normally-closed contact the second breaker of series connection of the first breaker form second Mother is accessed after the second pair of normally-closed contact series connection for busbar breaker of connecting after branch, the first branch and the second branch parallel connection to close a floodgate On time relay coil, the first couple delay normally opened contact of mother closing time relay seals in the combined floodgate time of busbar breaker Road；5th pair of normally opened contact of the first power monitoring relay is connected with the 5th pair of normally opened contact of second source supervisory relay It is accessed after connecting afterwards with the 3rd pair of normally opened contact of busbar breaker on mother tripping intermediate relay coil, among mother tripping First pair of normally opened contact of relay seals in the sub-gate circuit of busbar breaker.

2. one kind three inlet wires one mother power distribution control system as described in claim 1, which is characterized in that the first breaker it is secondary End of incoming cables detection divide-shut brake function physical circuit connection relation be：Control system further includes the first power monitoring relay, One closing time relay, the first breaker signal extension intermediate relay and the first tripping intermediate relay；First electricity When access first is closed a floodgate after first pair of normally opened contact of source supervisory relay is connected with second pair of normally-closed contact of the first breaker Between on relay coil, the first couple of the first closing time relay normally opened contact that is delayed seals in the combined floodgate of the first breaker and returns Road；The first couple of first closing time relay is delayed between normally opened contact and the first closing circuit electrical interlocking contact of connecting； Second pair of normally-closed contact of the first power monitoring relay accesses first after connecting with the 3rd pair of normally opened contact of the first breaker It trips on intermediate relay coil, first pair of normally opened contact of the first tripping intermediate relay seals in the separating brake time of the first breaker Road.

3. one kind three inlet wires one mother power distribution control system as described in claim 1, which is characterized in that the second breaker it is secondary End of incoming cables detection divide-shut brake function physical circuit connection relation be：Control system further includes second source supervisory relay, Two closing time relays, the second breaker signal extension intermediate relay and the second tripping intermediate relay；Second electricity When access second is closed a floodgate after first pair of normally opened contact of source supervisory relay is connected with second pair of normally-closed contact of the second breaker Between on relay coil, the first couple of the second closing time relay normally opened contact that is delayed seals in the combined floodgate of the second breaker and returns Road；The first couple of second closing time relay is delayed between normally opened contact and closing circuit electrical interlocking contact of connecting；Second The second tripping of access after second pair of normally-closed contact of power monitoring relay is connected with the 3rd pair of normally opened contact of the second breaker On intermediate relay coil, first pair of normally opened contact of the second tripping intermediate relay seals in the sub-gate circuit of the second breaker.

4. one kind three inlet wires one mother power distribution control system as described in claim 1, which is characterized in that the 3rd breaker it is secondary End of incoming cables detection divide-shut brake function physical circuit connection relation be：Control system is further included including the 3rd power monitoring relay Device, the 3rd closing time relay, the 3rd breaker signal extension intermediate relay and the 3rd tripping intermediate relay；Described First pair of normally opened contact of three power monitoring relays connect the first supervisory relay the 3rd pair of normally-closed contact after connect the again The 3rd is accessed after finally connecting after 3rd pair of normally-closed contact of two supervisory relays with second pair of normally-closed contact of the 3rd breaker On closing time relay coil, the first couple delay normally opened contact of the 3rd closing time relay seals in the conjunction of the 3rd breaker Lock circuit；It connects electrical interlocking contact between the first delay normally opened contact and closing circuit of 3rd closing time relay；The 4th pair of normally opened contact of one power monitoring relay with the 4th of second source supervisory relay the it is in parallel to normally opened contact after with After the 3rd pair of normally opened contact series connection of 3rd breaker on the 3rd tripping intermediate relay coil of access, relay among the 3rd tripping First pair of normally opened contact of device seals in the sub-gate circuit of the 3rd breaker.

5. one kind three inlet wires, one mother power distribution control system as described in claim 1, which is characterized in that busbar breaker has two Secondary source switching and divide-shut brake function, physical circuit connection relation is：Control system further include including secondary power supply switching after Electric appliance, mother closing time relay, busbar breaker signal extension intermediate relay and mother tripping intermediate relay；It is described The coil of mother power transfer relay takes electricity on II sections of busbares, when II sections of busbares are charged, mother power transfer relay Coil energized action, first pair of normally opened contact are closed, and mother control loop is charged；When I sections of busbares are charged, 4L1 takes electricity to pass through Mother power transfer relay second makes normally-closed contact mother control loop charged；4th pair of normally opened contact of the first breaker It connects the 4th pair of normally-closed contact of the second breaker, the 5th pair of normally-closed contact of the first breaker connects the 5th of the second breaker To normally opened contact, it is above-mentioned connect respectively after it is in parallel again after connect with second pair of normally-closed contact of busbar breaker after access mother conjunction On lock time relay coil, the first couple delay normally opened contact of mother closing time relay seals in the combined floodgate of busbar breaker Circuit；It connects between mother closing time relay and mother closing circuit electrical interlocking contact；First power monitoring relay The 5th pair of normally opened contact connect with the 5th pair of normally opened contact of second source supervisory relay after with busbar breaker the 3rd It is accessed after connecting to normally opened contact on mother tripping intermediate relay coil, the first couple of mother tripping intermediate relay is normally opened to be touched Point seals in the sub-gate circuit of busbar breaker.