CN205810724U - A kind of device of Self Adaptive Control breaker actuation - Google Patents

Abstract

This utility model relates to the device of a kind of Self Adaptive Control breaker actuation, the problem that can effectively solve Self Adaptive Control circuit-breaker switching on-off, technical scheme is, main control unit respectively with voltage x current acquisition module, quantity of state input/output module, IGBT drive module, power module is connected with OLED display module, IGBT drive module is connected with chopper, this utility model novel structure is unique, advantages of simple, can flexible and provide maintain divide-shut brake pulling force, greatly simplify and reduce the use cost of chopper and improve the intelligent level of control device, the chopper use of on the market more than 90% can be suitable for, safe and reliable, easy to use, effective, there is good Social and economic benef@.

Description

A kind of device of Self Adaptive Control breaker actuation

Technical field

This utility model relates to distribution network automation equipment, the dress of a kind of Self Adaptive Control breaker actuation Put.

Background technology

Current Intelligent Circuit Breaker Controller realizes the divide-shut brake function of chopper by controlling capacitor discharge time, its Being typically the fixing 30ms 90ms according to conventional chopper use experience the discharge time of middle electric capacity, discharge current is to electromagnetism The magnetic force that body produces be enough to make switch motion, but the permanent magnet mechanism of traditional breaker body and technique exist largely Deviation cause part chopper to need pulling force excessive, traditional controller uses when carrying out deciliter action fixing discharge time Easily failure, this is the mechanical performance decision of killer switch.If discharge time 30ms will be fixed on, then body due to Need pulling force exceed 30ms release energy and cause baulk, if discharge time 90ms will be fixed to, this cognition due to Dynamics excessive generation bounce-back also results in baulk, and this will have a strong impact on the safe operation of power distribution network.Therefore, it improves and wound The most imperative.

Utility model content

For above-mentioned situation, for overcoming the defect of prior art, the purpose of this utility model is just to provide a kind of self adaptation Control the device of breaker actuation, the problem that can effectively solve Self Adaptive Control circuit-breaker switching on-off.

The technical scheme that this utility model solves is, the device of a kind of Self Adaptive Control breaker actuation, including:

Main control unit: the voltage x current value uploaded for read voltage current acquisition module, and according to these electric parameters And panel set amount judges whether chopper carries out action；

Voltage x current acquisition module: for the collection of alternating voltage electric current, and the analog quantity collected is transferred to master control Chip processes, and is shown to oled panel display module in real time；

Quantity of state input/output module: gather the duty of chopper and be sent to main control unit；

IGBT drive module: main control unit sends control signals to IGBT drive module, it is achieved to multiple IGBT break-makes Controlling, thus reach the purpose of circuit-breaker switching on-off, this IGBT drive module of still further aspect is also by magnitude of voltage current for electric capacity Return to main control unit, when chopper needs action main control unit using electric capacity current voltage as a criterion；

Power module: for providing power supply for complete machine；

OLED display module: for the intercommunication with main control unit, real-time circuit voltage x current information, it is possible to Each control parameter is modified, display present apparatus state in which and the fault message of circuit, and adjust according to user's request Whole control parameter and control logic；

Main control unit respectively with voltage x current acquisition module, quantity of state input/output module, IGBT drive module, power supply mould Block is connected with OLED display module, and IGBT drive module is connected with chopper.

A kind of control breaker closing method of device based on Self Adaptive Control breaker actuation, comprises the following steps:

(1) the voltage x current data collected are uploaded to main control unit by voltage x current acquisition module；

(2) main control unit is according to the voltage x current threshold value arranged in OLED display module, on voltage x current acquisition module The voltage x current data passed and the circuit breaker switch state amount binding analysis of detection, it is determined whether enter combined floodgate flow process；

(3) combined floodgate flow process is entered, electric capacity electric discharge 30ms；

(4) whether the state of detection killer switch is "on" position；

(5) if being still gate-dividing state, again detecting after 5ms, if being still gate-dividing state, duplicate detection process, during time delay Between more than 90ms time close a floodgate unsuccessfully；

(6) if after electric capacity electric discharge 30ms, detection switch position is "on" position when starting, then time delay 3ms detects switch shape again Whether state is "on" position, if being still "on" position, closes a floodgate successfully, if gate-dividing state then enters step (4).

A kind of control breaker open operation method of device based on Self Adaptive Control breaker actuation, comprises the following steps:

(1) the voltage x current data collected are uploaded to main control unit by voltage x current acquisition module；

(2) main control unit is according to the voltage x current threshold value arranged in OLED display module, on voltage x current acquisition module The voltage x current data passed and the circuit breaker switch state amount binding analysis of detection, it is determined whether enter separating brake flow process；

(3) separating brake flow process is entered, electric capacity electric discharge 30ms；

(4) whether the state of detection killer switch is gate-dividing state；

(5) if being still gate-dividing state, again detecting after 5ms, if being still gate-dividing state, duplicate detection process, during time delay Between more than 90ms time separating brake failure；

(6) if after electric capacity electric discharge 30ms, detection switch position is gate-dividing state when starting, then time delay 3ms detects switch shape again Whether state is gate-dividing state, if being still gate-dividing state, separating brake success, if gate-dividing state then enters step (4).

This utility model novel structure is unique, advantages of simple, it is possible to flexible also provides the pulling force maintaining divide-shut brake, greatly Big simplification and reduce the use cost of chopper and improve the intelligent level of control device, it is possible to be suitable on the market 90% Above chopper uses, safe and reliable, easy to use, effective, has good Social and economic benef@.

Accompanying drawing explanation

Fig. 1 is structure frame schematic diagram of the present utility model.

Fig. 2 is the circuit theory diagrams of this utility model main control unit.

Fig. 3 is the circuit theory diagrams of this utility model voltage x current acquisition module.

Fig. 4 is that the circuit of status circuit, opening and closing state input circuit and involution circuit of this utility model distant place/on the spot is former Reason figure.

Fig. 5 is this utility model manual brake separating circuit, closing by hand circuit and the circuit theory diagrams of remote signals circuit.

Fig. 6 is the circuit theory diagrams of this utility model active circuit.

Fig. 7 is the circuit theory diagrams of this utility model OLED display module.

Fig. 8 is the circuit theory diagrams of this utility model IGBT drive module.

Fig. 9 is the logical flow chart of this utility model breaker closing.

Figure 10 is the logical flow chart of this utility model breaker open operation.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in further detail.

Being given by Fig. 1-10, this utility model includes:

Main control unit: the voltage x current value uploaded for read voltage current acquisition module, and according to these electric parameters And panel set amount judges whether chopper carries out action；

Voltage x current acquisition module: for the collection of alternating voltage electric current, and the analog quantity collected is transferred to master control Chip processes, and is shown to oled panel display module in real time；

Quantity of state input/output module: gather the duty of chopper and be sent to main control unit；

IGBT drive module: main control unit sends control signals to IGBT drive module, it is achieved to multiple IGBT break-makes Controlling, thus reach the purpose of circuit-breaker switching on-off, this IGBT drive module of still further aspect is also by magnitude of voltage current for electric capacity Return to main control unit, when chopper needs action main control unit using electric capacity current voltage as a criterion；

Power module: for providing power supply for complete machine；

OLED display module: for the intercommunication with main control unit, real-time circuit voltage x current information, it is possible to Each control parameter is modified, display present apparatus state in which and the fault message of circuit, and adjust according to user's request Whole control parameter and control logic；

Main control unit respectively with voltage x current acquisition module, quantity of state input/output module, IGBT drive module, power supply mould Block is connected with OLED display module, and IGBT drive module is connected with chopper.

During combined floodgate, comprise the following steps:

(1) the voltage x current data collected are uploaded to main control unit by voltage x current acquisition module；

(2) main control unit is according to the voltage x current threshold value arranged in OLED display module, on voltage x current acquisition module The voltage x current data passed and the circuit breaker switch state amount binding analysis of detection, it is determined whether enter combined floodgate flow process；

(3) combined floodgate flow process is entered, electric capacity electric discharge 30ms；

(4) whether the state of detection killer switch is "on" position；

(5) if being still gate-dividing state, again detecting after 5ms, if being still gate-dividing state, duplicate detection process, during time delay Between more than 90ms time close a floodgate unsuccessfully；

(6) if after electric capacity electric discharge 30ms, detection switch position is "on" position when starting, then time delay 3ms detects switch shape again Whether state is "on" position, if being still "on" position, closes a floodgate successfully, if gate-dividing state then enters step (4).

During separating brake, comprise the following steps:

(1) the voltage x current data collected are uploaded to main control unit by voltage x current acquisition module；

(2) main control unit is according to the voltage x current threshold value arranged in OLED display module, on voltage x current acquisition module The voltage x current data passed and the circuit breaker switch state amount binding analysis of detection, it is determined whether enter separating brake flow process；

(3) separating brake flow process is entered, electric capacity electric discharge 30ms；

(4) whether the state of detection killer switch is gate-dividing state；

(5) if being still gate-dividing state, again detecting after 5ms, if being still gate-dividing state, duplicate detection process, during time delay Between more than 90ms time separating brake failure；

(6) if after electric capacity electric discharge 30ms, detection switch position is gate-dividing state when starting, then time delay 3ms detects switch shape again Whether state is gate-dividing state, if being still gate-dividing state, separating brake success, if gate-dividing state then enters step (4).

For ensureing using effect, described main control unit includes chip U1A and chip U1B；

Described chip U1A and the model of chip U1B are SZ_STM32F407；

Described voltage x current acquisition module includes chip U26, transformator T5 and transformator T2, and 4 feet of chip U26 connect core The 45B foot of sheet U1B, 7 feet connect one end and one end of resistance R87 of electric capacity C75 respectively, and the other end of electric capacity C75 is with electric capacity C77's One end is connected, the common end ground connection of electric capacity C75 and electric capacity C77, one end of the other end of electric capacity C77 connecting resistance R91 respectively and chip 8 feet of U26, the other end of resistance R87 connects one end and one end of resistance R86 of electric capacity C74 respectively, the other end of electric capacity C74 with One end of electric capacity C76 is connected, and holds ground connection altogether, another of one end of the other end of electric capacity C76 connecting resistance R90 respectively and resistance R91 End, one end of the other end of resistance R86 connecting resistance R88 respectively and one end of magnetic bead L8, the other end of resistance R88 and resistance R89 One end be connected, hold ground connection altogether, the other end of the other end of resistance R89 connecting resistance R90 respectively and one end of magnetic bead L9, magnetic bead L8 The other end be connected with 2 feet of transformator T5, the other end of magnetic bead L9 is connected with 4 feet of transformator T5, and 1 foot of transformator T5 is Current input terminal, 3 feet are current output terminal, equipped with Transient Suppression Diode D25 between 1 foot and 3 feet；

18 feet of chip U26 connect one end and one end of resistance R73 of electric capacity C54 respectively, the other end ground connection of electric capacity C54, The other end of resistance R73 connects 4 feet and one end of resistance R72 of transformator T2 respectively, and the other end of resistance R72 connects transformator respectively 2 feet of T2 and one end of resistance R71, the other end of resistance R71 connects one end of electric capacity C50 and 23 feet of chip U26, electric capacity respectively The other end ground connection of C50,1 foot of transformator T2 connects one end and one end of resistance RA2, the wink of Transient Suppression Diode D22 respectively The other end of state suppression diode D22 is connected with 3 feet of transformator T2, and the other end of resistance RA2 is equipped with the resistance of series connection with it RA1；

29 feet of chip U26 connect the 27B foot of chip U1B, and 32 feet connect the 28B foot of chip U1B, and 35 feet meet the 30B of chip U1B Foot, 36 feet connect the 49B foot of chip U1B, and 39 feet connect the 50B foot of chip U1B；37 feet connect the 48B foot of chip U1B, and 38 feet connect chip The 47B foot of U1B；

The model of described chip U26 is ADE7878CPZ；

Described quantity of state input/output module include the status circuit of a distant place that structure is identical/on the spot, involution circuit and point "on" position input circuit, manual brake separating circuit, closing by hand circuit, involution circuit, active circuit and remote signals circuit；

Wherein, the status circuit of a distant place/on the spot, opening and closing state input circuit are identical with involution circuit structure, all include light Electric coupler U10, a pin of photoelectrical coupler U10 input one end of connecting resistance R35, one end of electric capacity C93, electricity respectively Hold one end of C94, another pin of photoelectrical coupler U10 input and the outfan of power module, the other end of electric capacity C93 It is connected with the other end of electric capacity C94, holds ground connection altogether, one end of the other end of resistance R35 connecting resistance R36 respectively and transient state suppression two One end of pole pipe D7, the other end of resistance R36 connects one end and one end of varistor RT5, the varistor of inductance L24 respectively The other end of RT5 is connected with the other end of Transient Suppression Diode D7, holds ground connection altogether, and the other end of inductance L24 is as a distant place/just Ground status circuit, opening and closing state input circuit and the input of involution circuit,

For a distant place/on the spot status circuit and involution circuit, the other end of inductance L24 is all connected with panel button；

For opening and closing state input circuit, the other end of inductance L24 is connected with the auxiliary node of breaker body；

One end of one pin of photoelectrical coupler U10 outfan and respectively connecting resistance R33 and one end of resistance R34, electricity The other end of resistance R33 is connected with power module, another pin of photoelectrical coupler U10 outfan and one end phase of electric capacity C18 Even, hold ground connection, the other end of electric capacity C18 to be connected with the other end of resistance R34 altogether, altogether end as the status circuit of a distant place/on the spot, divide "on" position input circuit and the outfan of involution circuit,

For the status circuit of a distant place/on the spot, the 19A foot of the common chip termination U1A of electric capacity C18 and resistance R34；

For opening and closing state input circuit, the 22A foot of the common chip termination U1A of electric capacity C18 and resistance R34；

For involution circuit, the 22B foot of the common chip termination U1B of electric capacity C18 and resistance R34；

Described manual brake separating circuit, closing by hand circuit are identical with remote signals circuit structure, all include resistance R50, Electric capacity C31, inductance L28 and Transient Suppression Diode D29, one end of resistance R50 is connected with the outfan of power module, resistance The other end of R50 meets one end of electric capacity C31, one end of Transient Suppression Diode D29 and one end of inductance L28, electric capacity C31 respectively The other end be connected with the other end of Transient Suppression Diode D29, hold ground connection altogether, the other end of inductance L28 is as manual brake separating Circuit, closing by hand circuit and the input of remote signals circuit, be all connected with panel button；

The common end of resistance R50, electric capacity C31, inductance L28 and Transient Suppression Diode D29 as manual brake separating circuit, manually Combined floodgate circuit and the outfan of remote signals circuit,

For manual brake separating circuit, the 15B foot of this common chip termination U1B；

For closing by hand circuit, the 16B foot of this common chip termination U1B；

For remote signals circuit, this common end connects the 39A foot of chip U1A, 40A foot, 47A foot and 48A foot respectively；

Described active circuit includes photoelectrical coupler U16, and a pin of photoelectrical coupler U16 input connects electricity respectively The outfan of source module and one end of resistance R12, the other end of resistance R12 one end of connecting resistance R20, photoelectrical coupler respectively Another pin of U16 input, one end of Transient Suppression Diode D4, the other end of resistance R20 is through inductance L27 and electric capacity One end of C92 is connected, and the other end of electric capacity C92 is connected with the other end of Transient Suppression Diode D4, holds ground connection, electric capacity C92 altogether With the common end of inductance L27 as input, connecing the 18A foot of chip U1A, a pin of photoelectrical coupler U16 outfan is respectively One end of connecting resistance R2, one end of varistor RT8, the positive pole of diode D33, the other end of resistance R2 is with diode D33's Negative pole is connected, and end is connected with the outfan of power module altogether, another pin of photoelectrical coupler U16 outfan and varistor The other end of RT8 is connected, and holds ground connection altogether, and the common end of photoelectrical coupler U16, resistance R2, varistor RT8 and diode D33 is made For outfan, it is connected with panel button；

The model of described photoelectrical coupler is TLP521；

Described OLED display module include 1 foot of chip U2, chip U2 through resistance R31 respectively with the output of power module End is connected with one end of electronics R32, and the other end of resistance R32 connects 32 feet of chip U2,48 feet, 64 feet, 19 feet and 13 feet respectively, 5 feet of chip U2 connect one end and one end of crystal oscillator Y1 of electric capacity C5 respectively, the other end of crystal oscillator Y1 connect respectively chip U2 6 feet and One end of electric capacity C6, the other end of electric capacity C6 is connected with the other end of electric capacity C5, holds ground connection altogether, and 60 feet of chip U2 are through resistance R29 ground connection, one end of 7 feet of chip U2 connecting resistance R30 respectively and one end of electric capacity C7, the other end ground connection of electric capacity C7, resistance The other end of R30 is connected with the outfan of power module, and 28 feet of chip U2 meet the 20A of chip U1A through resistance R28 ground connection, 8 feet Foot, 9 feet connect the 19A foot of chip U1A, and 11 feet connect the 24A foot of chip U1A, and 37 feet connect the 46B foot of chip U1B, and 38 feet connect chip The 36B foot of U1B, 3 feet connect one end and one end of crystal oscillator Y2 of electric capacity C8 respectively, and the other end of crystal oscillator Y2 connects the 4 of chip U2 respectively Foot and one end of electric capacity C9, the other end of electric capacity C8 is connected with the other end of electric capacity C9, holds ground connection, 31 feet of chip U2 and 47 altogether Foot, 63 feet, 18 feet, 12 feet are connected, and hold ground connection altogether.

The model of described chip U2 is STM32F103RBT6；

Described IGBT drive module includes that IGBT pipe V1, V2, V3, V4, the colelctor electrode of IGBT pipe V1 connect electric capacity C's respectively Positive pole and the colelctor electrode of IGBT pipe V3, the gate leve of IGBT pipe V1 one end of connecting resistance RW1, the 12B foot of chip U1B, 13B respectively Foot, one end of resistance RW4 and the gate pole of IGBT pipe V4, the other end of resistance RW1 connects the emitter stage of IGBT pipe V1, IGBT pipe respectively The colelctor electrode of V2 and the positive pole of breaker coil, the gate pole of IGBT pipe V2 one end of connecting resistance RW2, the 11B of chip U1B respectively Foot, the 14B foot of U1B, one end of resistance RW3 and the gate pole of IGBT pipe V3, the other end of resistance RW2 connect respectively electric capacity C negative pole, The emitter stage of IGBT pipe V4 and the other end of resistance RW4, the colelctor electrode of IGBT pipe the V4 other end of connecting resistance RW3, IGBT respectively The emitter stage of pipe V3 and the negative pole of breaker coil.

As it is shown in figure 1, be this utility model structure frame schematic diagram, it include main control unit, voltage x current acquisition module, Quantity of state input/output module, OLED display module, IGBT drive module, power module, wherein, IGBT drives and power module Being connected with main control unit, the driving to permanent magnet mechanism operates, and actually the coil of permanent magnet mechanism is carried out forward and reverse control, Making it produce the magnetic field that direction is controlled, interact with permanent magnetism iron core, form bistable state interlocking, permanent magnet armature drives true control to open Pass realizes divide-shut brake control, and therefore IGBT drive module is the output of control circuit, it is possible to directly control dividing of breaker body Closing operation.

As in figure 2 it is shown, described main control unit is connected with modules by main control chip pin controls whole device Function.

As it is shown on figure 3, described voltage x current acquisition module, realize current sample by current transformer, pass through voltage After transformer and resistor voltage divider network realize voltage sample, use the special electricity of chip U26 to process chip and the signal gathered is entered Row calculates, and obtains voltage, and current value also calculates relevant power, frequency and phase place.Stablized by hardware and digital filtering Data reliably.Chip is connected with main control chip by spi bus.The every 125us of special chip interrupts once, calculates a number According to.Main control chip is uploaded to by SPI.Main control unit is analyzed by the data uploading collection, according to the electric current gathered Value determines whether to enter divide-shut brake flow process.37 feet of its chips U26,38 feet are data output and the input port of SPI, 36 feet For the input end of clock mouth of SPI, 29 feet, 32 feet are the interrupt output mouth of chip U26, and 35 feet are calibration pulse delivery outlet, all connect Receive on corresponding main control chip pin.

As shown in Figure 4, described quantity of state input/output module is directly connected with main control unit, is used for detecting chopper Input quantity, as the decision condition whether carrying out divide-shut brake.Wherein a distant place/status circuit, opening and closing state input electricity on the spot Road is identical with involution circuit structure, and manual brake separating circuit, closing by hand circuit are identical with remote signals circuit structure.Divide-shut brake shape State input circuit introduces the auxiliary node of the outside breaker body of termination, is used for receiving the breaker body switch shape fed back State amount, as determining whether to enter anticipation separating brake or the foundation of "on" position, the PC13 pin of input termination main control chip；Far The status circuit of side/on the spot is determined its state by panel display module button, distant place state lower panel display module quiescing, just Ground state lower panel display module allows operation, the PC2 pin of input termination main control chip；Manual brake separating circuit input end meets master The PF10 pin of control chip；Closing by hand circuit input end connects the PG15 pin of main control chip；Active circuit input termination master control The PF9 pin of chip, is used for activating main control unit；Manual brake separating circuit, closing by hand circuit, involution circuit, active circuit Input is all by panel button control.Remote signals circuit is connected with PB1, PB0, PG6, PG8 pin of main control chip, wherein remote signalling Signal is sent by remote controller key, controls divide-shut brake for remote controller.

As it is shown in figure 5, IGBT pipe V1, V2, V3, V4 composition H bridge of described IGBT drive module, control signal G1_NI, G2_NI, G3_NI, G4_NI are connected respectively to PB8, PB9, PB6, PB7 pin of main control chip, when IGBT pipe V1, V4 turn on, During IGBT pipe V2, V3 cut-off, electric current flows through IGBT pipe V1 to permanent magnetism coil left end, and is gone out by right-hand member, now permanent magnetism coil magnetic field Direction is assumed to the right S of left N, and with permanent magnetism iron core interaction force, armature moves to left and separating brake；When IGBT pipe V2, V3 turn on, and IGBT manages During V1, V4 cut-off, electric current to permanent magnetism coil right-hand member, and is gone out by left end through V3, then flows through IGBT pipe V2, now permanent magnetism coil magnetic Field direction is assumed to the right N of left S, and with permanent magnetism iron core interaction force, armature moves to right and closes a floodgate.

As shown in Figure 6, described OLED display module includes chip U2, LCD display.Chip U2 is responsible for and main control unit Communicate and according to Content of Communication control LCD show, LED light on and off.Wherein LED1 LED13 is respectively protection act, weight Close a floodgate, rear acceleration, involution, combined floodgate, separating brake, work, communicate, battery undervoltage, non-energy storage lamp, so can show control intuitively The running status of device.M_RXD with M_TXD is the reception that communicates with master control borad of panel and send serial ports, respectively with middle control chip PC12 and PD2 pin is connected.

By above-mentioned situation it should be apparent that this utility model novel structure is unique, advantages of simple, it is possible to flexible And the pulling force maintaining divide-shut brake is provided, greatly simplify and reduce the use cost of chopper and improve the intelligence of control device Change level, it is possible to be suitable for the chopper use of on the market more than 90%, safe and reliable, easy to use, effective, there is good society Meeting and economic benefit.

Claims (5)

1. the device of a Self Adaptive Control breaker actuation, it is characterised in that including:

Main control unit: the voltage x current value uploaded for read voltage current acquisition module, and according to these electric parameters and Panel set amount judges whether chopper carries out action；

Voltage x current acquisition module: for the collection of alternating voltage electric current, and the analog quantity collected is transferred to main control chip Process, be shown to oled panel display module in real time；

Quantity of state input/output module: gather the duty of chopper and be sent to main control unit；

IGBT drive module: main control unit sends control signals to IGBT drive module, it is achieved the control to multiple IGBT break-makes, Thus reaching the purpose of circuit-breaker switching on-off, magnitude of voltage current for electric capacity is also returned to by this IGBT drive module of still further aspect Main control unit, when chopper needs action main control unit using electric capacity current voltage as a criterion；

Power module: for providing power supply for complete machine；

OLED display module: for the intercommunication with main control unit, real-time circuit voltage x current information, it is possible to respectively Control parameter to modify, display present apparatus state in which and the fault message of circuit, and adjust control according to user's request Parameter processed and control logic；

Main control unit respectively with voltage x current acquisition module, quantity of state input/output module, IGBT drive module, power module and OLED display module is connected, and IGBT drive module is connected with chopper.

The device of Self Adaptive Control breaker actuation the most according to claim 1, it is characterised in that

Described main control unit includes chip U1A and chip U1B；

Described voltage x current acquisition module includes chip U26, transformator T5 and transformator T2, and 4 feet of chip U26 connect chip The 45B foot of U1B, 7 feet meet one end and one end of resistance R87 of electric capacity C75, the other end of electric capacity C75 and the one of electric capacity C77 respectively End is connected, the common end ground connection of electric capacity C75 and electric capacity C77, one end of the other end of electric capacity C77 connecting resistance R91 respectively and chip U26 8 feet, the other end of resistance R87 connects one end and one end of resistance R86 of electric capacity C74, the other end of electric capacity C74 and electric capacity respectively One end of C76 is connected, and holds ground connection altogether, one end of the other end of electric capacity C76 connecting resistance R90 respectively and the other end of resistance R91, electricity One end of the other end of resistance R86 connecting resistance R88 respectively and one end of one end of magnetic bead L8, the other end of resistance R88 and resistance R89 It is connected, holds ground connection altogether, the other end of the other end of resistance R89 connecting resistance R90 respectively and one end of magnetic bead L9, another of magnetic bead L8 End is connected with 2 feet of transformator T5, and the other end of magnetic bead L9 is connected with 4 feet of transformator T5, and 1 foot of transformator T5 is that electric current is defeated Entering end, 3 feet are current output terminal, equipped with Transient Suppression Diode D25 between 1 foot and 3 feet；

18 feet of chip U26 connect one end and one end of resistance R73 of electric capacity C54, the other end ground connection of electric capacity C54, resistance respectively The other end of R73 connects 4 feet and one end of resistance R72 of transformator T2 respectively, and the other end of resistance R72 connects transformator T2's respectively 2 feet and one end of resistance R71, the other end of resistance R71 meets one end of electric capacity C50 and 23 feet of chip U26, electric capacity C50 respectively Other end ground connection, 1 foot of transformator T2 connects one end and one end of resistance RA2 of Transient Suppression Diode D22 respectively, and transient state presses down The other end of diode D22 processed is connected with 3 feet of transformator T2, and the other end of resistance RA2 is equipped with the resistance RA1 of series connection with it；

29 feet of chip U26 connect the 27B foot of chip U1B, and 32 feet connect the 28B foot of chip U1B, and 35 feet connect the 30B foot of chip U1B, 36 feet connect the 49B foot of chip U1B, and 39 feet connect the 50B foot of chip U1B, and 37 feet connect the 48B foot of chip U1B, and 38 feet meet chip U1B 47B foot.

The device of Self Adaptive Control breaker actuation the most according to claim 2, it is characterised in that

Described quantity of state input/output module includes a distant place that structure is identical/on the spot status circuit, involution circuit and divide-shut brake State input circuit, manual brake separating circuit, closing by hand circuit, involution circuit, active circuit and remote signals circuit；

Wherein, the status circuit of a distant place/on the spot, opening and closing state input circuit are identical with involution circuit structure, all include light thermocouple Clutch U10, a pin of photoelectrical coupler U10 input one end of connecting resistance R35, one end of electric capacity C93, electric capacity respectively One end of C94, another pin of photoelectrical coupler U10 input and the outfan of power module, the other end of electric capacity C93 with The other end of electric capacity C94 is connected, and holds ground connection altogether, and one end and the transient state of the other end of resistance R35 connecting resistance R36 respectively suppress two poles One end of pipe D7, the other end of resistance R36 meets one end and one end of varistor RT5 of inductance L24, varistor RT5 respectively The other end be connected with the other end of Transient Suppression Diode D7, hold ground connection altogether, the other end of inductance L24 is as a distant place/on the spot Status circuit, opening and closing state input circuit and the input of involution circuit,

For a distant place/on the spot status circuit and involution circuit, the other end of inductance L24 is all connected with panel button；

For opening and closing state input circuit, the other end of inductance L24 is connected with the auxiliary node of breaker body；

One end of one pin of photoelectrical coupler U10 outfan and respectively connecting resistance R33 and one end of resistance R34, resistance R33 The other end be connected with power module, another pin of photoelectrical coupler U10 outfan is connected with one end of electric capacity C18, altogether End ground connection, the other end of electric capacity C18 is connected with the other end of resistance R34, holds altogether as a distant place/on the spot status circuit, divide-shut brake State input circuit and the outfan of involution circuit,

For the status circuit of a distant place/on the spot, the 19A foot of the common chip termination U1A of electric capacity C18 and resistance R34；

For opening and closing state input circuit, the 22A foot of the common chip termination U1A of electric capacity C18 and resistance R34；

For involution circuit, the 22B foot of the common chip termination U1B of electric capacity C18 and resistance R34；

Described manual brake separating circuit, closing by hand circuit are identical with remote signals circuit structure, all include resistance R50, electric capacity C31, inductance L28 and Transient Suppression Diode D29, one end of resistance R50 is connected with the outfan of power module, resistance R50's The other end connects one end of electric capacity C31, one end of Transient Suppression Diode D29 and one end of inductance L28 respectively, and electric capacity C31's is another One end is connected with the other end of Transient Suppression Diode D29, holds ground connection altogether, the other end of inductance L28 as manual brake separating circuit, Closing by hand circuit and the input of remote signals circuit, be all connected with panel button；

The common end of resistance R50, electric capacity C31, inductance L28 and Transient Suppression Diode D29 is as manual brake separating circuit, closing by hand Circuit and the outfan of remote signals circuit,

For manual brake separating circuit, the 15B foot of this common chip termination U1B；

For closing by hand circuit, the 16B foot of this common chip termination U1B；

For remote signals circuit, this common end connects the 39A foot of chip U1A, 40A foot, 47A foot and 48A foot respectively；

Described active circuit includes photoelectrical coupler U16, and a pin of photoelectrical coupler U16 input connects power supply mould respectively The outfan of block and one end of resistance R12, the other end of resistance R12 one end of connecting resistance R20 respectively, photoelectrical coupler U16 are defeated Entering another pin of end, one end of Transient Suppression Diode D4, the other end of resistance R20 is through the one of inductance L27 and electric capacity C92 End is connected, and the other end of electric capacity C92 is connected with the other end of Transient Suppression Diode D4, holds ground connection, electric capacity C92 and inductance altogether The common end of L27, as input, connects the 18A foot of chip U1A, a pin of photoelectrical coupler U16 outfan connecting resistance respectively One end of R2, one end of varistor RT8, the positive pole of diode D33, the negative pole phase of the other end of resistance R2 and diode D33 Even, end is connected with the outfan of power module altogether, and another pin of photoelectrical coupler U16 outfan is with varistor RT8's The other end is connected, and holds ground connection altogether, and the common end of photoelectrical coupler U16, resistance R2, varistor RT8 and diode D33 is as output End, is connected with panel button.

The device of Self Adaptive Control breaker actuation the most according to claim 2, it is characterised in that described OLED shows Module includes that 1 foot of chip U2, chip U2 is connected with the outfan of power module and one end of electronics R32 respectively through resistance R31, The other end of resistance R32 connects 32 feet of chip U2,48 feet, 64 feet, 19 feet and 13 feet respectively, and 5 feet of chip U2 connect electric capacity respectively One end of C5 and one end of crystal oscillator Y1, the other end of crystal oscillator Y1 connects 6 feet and one end of electric capacity C6 of chip U2 respectively, electric capacity C6's The other end is connected with the other end of electric capacity C5, holds ground connection altogether, and 60 feet of chip U2 are through resistance R29 ground connection, and 7 feet of chip U2 are respectively One end of connecting resistance R30 and one end of electric capacity C7, the other end ground connection of electric capacity C7, the other end of resistance R30 and power module Outfan is connected, and 28 feet of chip U2 are through resistance R28 ground connection, and 8 feet connect the 20A foot of chip U1A, and 9 feet connect the 19A foot of chip U1A, 11 feet connect the 24A foot of chip U1A, and 37 feet connect the 46B foot of chip U1B, and 38 feet connect the 36B foot of chip U1B, and 3 feet connect electric capacity respectively One end of C8 and one end of crystal oscillator Y2, the other end of crystal oscillator Y2 connects 4 feet and one end of electric capacity C9 of chip U2 respectively, electric capacity C8's The other end is connected with the other end of electric capacity C9, holds ground connection altogether, and 31 feet of chip U2 and 47 feet, 63 feet, 18 feet, 12 feet are connected, altogether End ground connection.

5. according to the device of the Self Adaptive Control breaker actuation described in Claims 2 or 3, it is characterised in that described IGBT Module is driven to include that IGBT pipe V1, V2, V3, V4, the colelctor electrode of IGBT pipe V1 connect positive pole and the collection of IGBT pipe V3 of electric capacity C respectively Electrode, the gate leve of IGBT pipe V1 one end of connecting resistance RW1 respectively, the 12B foot of chip U1B, 13B foot, one end of resistance RW4 and The gate pole of IGBT pipe V4, the other end of resistance RW1 connects the emitter stage of IGBT pipe V1, the colelctor electrode of IGBT pipe V2 and chopper respectively The positive pole of coil, the gate pole of IGBT pipe V2 one end of connecting resistance RW2, the 11B foot of chip U1B, the 14B foot of U1B, resistance respectively One end of RW3 and the gate pole of IGBT pipe V3, the other end of resistance RW2 connect respectively the negative pole of electric capacity C, the emitter stage of IGBT pipe V4 and The other end of resistance RW4, the colelctor electrode of IGBT pipe the V4 other end of connecting resistance RW3, the emitter stage of IGBT pipe V3 and open circuit respectively The negative pole of device coil.