CN206729972U - A kind of control device of rapid blood coagulation cutter device - Google Patents

Abstract

The utility model discloses a kind of control device of rapid blood coagulation cutter device, including control panel, RF power amplification plate (3011) and two cutter head recognition units (3024), belong to technical field of medical instruments, solve the problems, such as while using manual switch and Foot-controlled switch control operating theater instruments blood coagulation, solve the problems, such as to provide operating theater instruments high current power supply using low-voltage dc power supply.

Description

A kind of control device of rapid blood coagulation cutter device

Technical field

The utility model belongs to technical field of medical instruments.

Background technology

In outer the reach of science history, operative hemorrhage is one of an important factor for obstruction surgery develops, and seeks cutting and adds The surgical technic or method of hemostasis are all the time through the development process of surgery, all kinds of surgical devices with cutting or hemostatic function Tool also releases one after another.Wherein, most representational is exactly the operating theater instruments for being cut using high frequency high voltage arc simultaneously electric coagulation hemostasis, it And one of modern surgery operation common equipment.

Utility model content

The purpose of this utility model is to provide a kind of control device of rapid blood coagulation cutter device, solves while uses hand The problem of control switch and Foot-controlled switch control operating theater instruments blood coagulation, solve and operating theater instruments is provided using low-voltage dc power supply The problem of high current is powered.

To achieve the above object, the utility model uses following technical scheme：

A kind of control device of rapid blood coagulation cutter device, including control panel, RF power amplification plate and two cutter head identifications are single Member, RF power amplification plate and two cutter head recognition units are connected with control panel；

Control panel includes button, first switch, second switch, third switch, the 4th switch, isolation circuit, buffer, work( Put, overvoltage protective module, digital analog converter, the second analog-digital converter, the first analog-digital converter, the second touch-screen, CPU module and First touch-screen；

First switch, second switch, third switch connect isolation circuit with the 4th switch by wire；

Isolation circuit Connection Cache device；Button, two cutter head recognition units pass through wire Connection Cache device；

Buffer, power amplifier, overvoltage protective module, digital analog converter, the second touch-screen, RF power amplification plate and the first touch-screen It is all connected with CPU module；

Overvoltage protective module connects RF power amplification plate with digital analog converter by wire；

Second analog-digital converter and the first analog-digital converter connect RF power amplification plate, the second analog-digital converter by wire CPU module is also all connected with the first analog-digital converter.

The RF power amplification plate is provided with voltage transformer, regulator rectifier circuit, voltage current transformer, OR gate module, the Two interfaces, first interface, inverter circuit, dc source, voltage comparator, NAND gate module, metal-oxide-semiconductor drive module and radio frequency letter Number generation module, dc source connection metal-oxide-semiconductor drive module, dc source also connect the overvoltage protective module by wire, Dc source exports VCC positive supplies, and second interface and first interface are all connected with inverter circuit, voltage transformer connection rectifying and voltage-stabilizing Circuit, regulator rectifier circuit connection voltage comparator, voltage comparator connection OR gate module, the connection metal-oxide-semiconductor driving of OR gate module Module, metal-oxide-semiconductor drive module connection inverter circuit, the CPU module connect voltage comparator, the connection of radiofrequency signal generation module NAND gate module, NAND gate module connection OR gate module；

The inverter circuit include inductance L2, inductance L3, TVS diode TS1, TVS diode TS2, TVS diode TS3, Electric capacity C115, electric capacity C116, electric capacity C117, electric capacity C119, electric capacity C136, electric capacity C153, electric capacity C135, electric capacity C114, short circuit Wire W1 and short circuit wire W2；Inductance L2 1 pin and inductance L3 1 pin are all connected with the metal-oxide-semiconductor drive module, and the 2 of inductance L2 Pin connection electric capacity C153 1 pin, inductance L2 2 pin pass through electric capacity C115 connection electric capacity C116 2 pin, electric capacity C116 1 pin company Connect TVS diode TS1 1 pin, TVS diode TS1 2 pin by TVS diode TS2 connection TVS diodes TS3 1 pin, TVS diode TS3 2 pin connection electric capacity C136 1 pin, the electric capacity C117 and electricity of electric capacity C116 1 pin also by being connected in series Hold C119 connection electric capacity C136 1 pin, inductance L3 2 pin connection electric capacity C136 1 pin, set short circuit wire W1 one end to be short Wire W1 1 pin is connect, the other end is short circuit wire W1 2 pin, sets short circuit wire W2 one end as short circuit wire W2 1 pin, The other end is short circuit wire W2 2 pin, and electric capacity C136 2 pin connect short circuit wire W2 1 pin, and electric capacity C136 2 pin are also connected with Short circuit wire W1 2 pin, short circuit wire W1 1 pin connect electric capacity C153's by the electric capacity C135 being connected in parallel with electric capacity C114 2 pin, electric capacity C153 2 pin constitute the output end of the inverter circuit with short circuit wire W2 2 pin；

The regulator rectifier circuit include diode D1B, diode D2B, diode D3B, diode D4B, resistance R1B and Diode D5B, diode D1B positive pole and diode D2B positive pole are all connected with the voltage transformer, and diode D1B is just Pole connection diode D3B negative pole, diode D3B positive pole connection ground wire, diode D2B cathode connecting diode D4B's Negative pole, diode D4B positive pole connection ground wire, diode D1B negative pole connection diode D2B negative pole, diode D2B's is negative Pole passes through resistance R1B connection ground wires, diode D2B negative pole connection diode D5B negative pole, diode D5B positive pole connection Ground wire, diode D5B negative pole connect the voltage comparator；The model JDZX16A-10R of the voltage transformer；It is described The model DSPIC4011 of radiofrequency signal generation module；The model 74F32 of OR gate module；The model of voltage comparator LM339；The model 74HC00 of NAND gate module；The model MIC4451 of metal-oxide-semiconductor drive module；The first interface and institute It is binding post to state second interface；

The voltage current transformer includes voltage collector and LZZBJ9-12 type current transformers；The voltage acquisition The model JDZX16A-10R type voltage transformers of device；

The voltage collector and the voltage transformer are set on the short circuit wire W1, in the short circuit wire W2 Upper setting institute LZZBJ9-12 type current transformers, the voltage collector connect second analog-digital converter, institute by wire State LZZBJ9-12 types current transformer and first analog-digital converter is connected by wire.

The cutter head recognition unit includes socket, and socket includes jack housing and identification wiring board, and identification wiring board is located at In jack housing；

Identification wiring board includes main control chip, connector, recognition unit, power module, LED indicating modules and signal output Interface, recognition unit, LED indicating modules and signal output interface are connected with main control chip；Power module is main control chip, known Other unit and LED indicating modules power supply, power module output 5V positive supplies；

Recognition unit includes the first photovoltaic element, the second photovoltaic element and the 3rd photovoltaic element；

First photovoltaic element include resistance R33, photoelectric sensor U9, resistance R34, resistance R35, resistance R36, electric capacity C12, Resistance R16, resistance R20, electric capacity C6, resistance R37, resistance R38, photoelectric sensor U11, resistance R39, resistance R40, resistance R41, Electric capacity C9, resistance R26, resistance R31, electric capacity C10, resistance R42 and amplifier U10, photoelectric sensor U9 1 pin pass through resistance R33 Connect 5V positive supplies, photoelectric sensor U9 2 pin connection ground wire, photoelectric sensor U9 3 pin pass through the resistance R34 that is connected in series 5V positive supplies are connected with resistance R35, photoelectric sensor U9 3 pin pass through electric capacity C12 connection photoelectric sensors U9 4 pin, photoelectricity Sensor U9 3 pin also also pass through resistance R37 connection amplifiers by resistance R36 connection amplifiers U10 3 pin, amplifier U10 3 pin U10 1 pin, amplifier U10 2 pin are by resistance R16 connection 5V positive supplies, the resistance of amplifier U10 2 pin also by being connected in parallel R20 connects ground wire with electric capacity C6, and amplifier U10 1 pin connects the main control chip；Photoelectric sensor U11 1 pin passes through resistance R38 connection 5V positive supplies, photoelectric sensor U11 2 pin connection ground wire, photoelectric sensor U11 3 pin pass through the electricity that is connected in series Resistance R39 connects 5V positive supplies with resistance R40, and photoelectric sensor U11 3 pin pass through the 4 of electric capacity C9 connection photoelectric sensors U11 Pin, photoelectric sensor U11 3 pin also also pass through resistance R42 by resistance R41 connection amplifiers U10 5 pin, amplifier U10 5 pin Amplifier U10 7 pin are connected, amplifier U10 6 pin are also connected by resistance R26 connection 5V positive supplies, amplifier U10 6 pin by parallel connection The resistance R31 connect connects ground wire with electric capacity C10, and amplifier U10 7 pin connect the main control chip；

Second photovoltaic element include resistance R13, photoelectric sensor U5, resistance R14, resistance R17, resistance R18, electric capacity C5, Resistance R15, resistance R19, electric capacity C7, resistance R22, resistance R23, photoelectric sensor U7, resistance R24, resistance R28, resistance R29, Electric capacity C8, resistance R25, resistance R30, electric capacity C11, resistance R32 and amplifier U6, photoelectric sensor U5 1 pin are connected by resistance R13 Connect 5V positive supplies, photoelectric sensor U5 2 pin connection ground wire, photoelectric sensor U5 3 pin by the resistance R14 that is connected in series and Resistance R17 connection 5V positive supplies, photoelectric sensor U5 3 pin pass through electric capacity C5 connection photoelectric sensors U5 4 pin, photoelectric sensing Device U5 3 pin also also pass through the 1 of resistance R22 connection amplifiers U6 by resistance R18 connection amplifiers U6 3 pin, amplifier U6 3 pin Pin, amplifier U6 2 pin are by resistance R15 connection 5V positive supplies, the resistance R19 and electricity of amplifier U6 2 pin also by being connected in parallel Hold C7 connection ground wires, amplifier U6 1 pin connects the main control chip；Photoelectric sensor U7 1 pin by resistance R23 connections 5V just Power supply, photoelectric sensor U7 2 pin connection ground wire, photoelectric sensor U7 3 pin pass through the resistance R24 and resistance that are connected in series R28 connection 5V positive supplies, photoelectric sensor U7 3 pin pass through electric capacity C8 connection photoelectric sensors U7 4 pin, photoelectric sensor U7 3 pin also by resistance R29 connection amplifiers U6 5 pin, amplifier U6 5 pin also pass through resistance R32 connection amplifiers U6 7 pin, fortune U6 6 pin are put by resistance R25 connection 5V positive supplies, the resistance R30 and electric capacity C11 of amplifier U6 6 pin also by being connected in parallel Ground wire is connected, amplifier U6 7 pin connect the main control chip；

3rd photovoltaic element includes resistance R1, photoelectric sensor U1, resistance R2, resistance R4, resistance R5, electric capacity C1, resistance R3, resistance R6, electric capacity C2, resistance R21, resistance R7, photoelectric sensor U3, resistance R8, resistance R27, resistance R10, electric capacity C3, electricity R9, resistance R11, electric capacity C4, resistance R12 and amplifier U2, photoelectric sensor U1 1 pin are hindered by resistance R1 connection 5V positive supplies, Photoelectric sensor U1 2 pin connection ground wire, photoelectric sensor U1 3 pin connect 5V by the resistance R2 being connected in series with resistance R4 Positive supply, photoelectric sensor U1 3 pin are also logical by electric capacity C1 connection photoelectric sensors U1 4 pin, photoelectric sensor U1 3 pin Resistance R5 connection amplifiers U2 3 pin are crossed, amplifier U2 3 pin are also led to by resistance R21 connection amplifiers U2 1 pin, amplifier U2 2 pin Resistance R3 connection 5V positive supplies are crossed, amplifier U2 2 pin also connect ground wire, amplifier U2 with electric capacity C2 by the resistance R6 being connected in parallel 1 pin connect the main control chip；Photoelectric sensor U3 1 pin is by resistance R7 connection 5V positive supplies, and the 2 of photoelectric sensor U3 Pin connects ground wire, and photoelectric sensor U3 3 pin connect 5V positive supplies, photoelectric transfer by the resistance R8 being connected in series with resistance R27 Sensor U3 3 pin are also connected by electric capacity C3 connection photoelectric sensors U3 4 pin, photoelectric sensor U3 3 pin by resistance R10 Amplifier U2 5 pin, amplifier U2 5 pin are also connected by resistance R12 connection amplifiers U2 7 pin, amplifier U2 6 pin by resistance R9 5V positive supplies, amplifier U2 6 pin also connect ground wire, amplifier U2 7 pin connection institute with electric capacity C4 by the resistance R11 being connected in parallel State main control chip；

The LED indicating modules are LED；The signal output interface is binding post；The model of the main control chip For STC89C52；

The signal output interface connects the buffer by wire, and the first interface connects a knife by wire The connector in head recognition unit；Second interface connects the connection in another cutter head recognition unit by wire Device.

The isolation circuit includes isolating switch power unit and phototube coupling unit；

Isolating switch power unit includes NE555 chip ICs 5X, diode D17X, resistance R18X, resistance R19X, electric capacity C16X, electric capacity C17X, electric capacity C13X, electric capacity C14X, electric capacity C15X, resistance R20X, FET Q18X, electric capacity C19X, transformation Device T1X and transformer T2X, NE555 chip IC 5X 8 pin and 4 pin are all connected with VCC positive supplies, and NE555 chip ICs 5X 8 pin are also By resistance R19X connection NE555 chip ICs 5X 7 pin, NE555 chip ICs 5X 7 pin pass through resistance R18X connection NE555 cores Piece IC5X 6 pin, diode D17X positive pole connection NE555 chip ICs 5X 7 pin, diode D17X negative pole connection NE555 Chip IC 5X 6 pin, NE555 chip ICs 5X 2 pin and 6 pin are by electric capacity C16X connection ground wires, and the 1 of NE555 chip ICs 5X Pin connects ground wire, and NE555 chip ICs 5X 5 pin are by electric capacity C17X connection ground wires, and NE555 chip ICs 5X 8 pin are also by simultaneously Electric capacity C13X, the electric capacity C15X of connection connection connect ground wire with electric capacity C15X, and transformer T1X 1 pin and transformer T2X 1 pin are equal Connect NE555 chip ICs 5X 8 pin, NE555 chip ICs 5X 3 pin by resistance R20X connection FETs Q18X grid, FET Q18X source electrode connection ground wire, FET Q18X drain electrode by electric capacity C19X connection ground wires, transformer T1X's 2 pin and transformer T2X 2 pin are all connected with FET Q18X drain electrode；

Phototube coupling unit includes diode D1X, diode D2X, diode D3X, diode D4X, resistance R1X, resistance R2X, resistance R3X, resistance R4X, resistance R5X, resistance R6X, resistance R7X, resistance R8X, resistance R9X, resistance R10X, resistance R11X, resistance R12X, resistance R13X, resistance R14X, resistance R15X, resistance R16X, triode Q1X, triode Q2X, triode Q3X, triode Q4X, electric capacity C1X, electric capacity C2X, electric capacity C3X, electric capacity C4X, electric capacity C5X, electric capacity C6X, electric capacity C7X, electric capacity C8X, electric capacity C9X, electric capacity C10X, electric capacity C11X, electric capacity C12X, optocoupler IC1X, optocoupler IC2X, optocoupler IC3X and optocoupler IC4X, Transformer T1X 3 pin connection diode D1X positive pole, transformer T1X 4 pin connection electric capacity C4X negative pole, diode D1X's Negative pole connection electric capacity C4X positive pole, diode D1X negative pole by resistance R2X connection optocouplers IC1X 1 pin, diode D1X's Negative pole passes through the negative of resistance R7X connection electric capacity C4X by resistance R1X connecting triodes Q2X base stage, triode Q2X base stage Pole, triode Q2X emitter stage pass through electric capacity C6X connection electric capacity C4X negative pole, electric capacity C4X negative pole and triode Q2X hair Emitter-base bandgap grading is all connected with the first switch, and diode D1X negative pole is also by resistance R10X connecting triodes Q2X emitter stage, and three Pole pipe Q2X colelctor electrode connection optocoupler IC1X 2 pin, optocoupler IC1X 3 pin are by electric capacity C1X connection ground wires, and the 3 of optocoupler IC1X Pin is also connected with the buffer, optocoupler IC1X 4 pin connection ground wire；

Transformer T1X 5 pin connection diode D3X positive pole, transformer T1X 6 pin connection electric capacity C3X negative pole, two Pole pipe D3X negative pole connection electric capacity C3X positive pole, diode D3X negative pole is by resistance R8X connection optocouplers IC3X 1 pin, and two Pole pipe D3X negative pole passes through resistance R6X connections electricity by resistance R5X connecting triodes Q1X base stage, triode Q1X base stage Hold C3X negative pole, triode Q1X emitter stage passes through electric capacity C5X connection electric capacity C3X negative pole, electric capacity C3X negative pole and three poles Pipe Q1X emitter stage is all connected with the second switch, and diode D3X negative pole also passes through resistance R9X connecting triodes Q1X hair Emitter-base bandgap grading, triode Q1X colelctor electrode connection optocoupler IC3X 2 pin, optocoupler IC3X 3 pin pass through electric capacity C7X connection ground wires, optocoupler IC3X 3 pin are also connected with the buffer, optocoupler IC3X 4 pin connection ground wire；

Transformer T2X 3 pin connection diode D2X positive pole, transformer T2X 4 pin connection electric capacity C9X negative pole, two Pole pipe D2X negative pole connection electric capacity C9X positive pole, diode D2X negative pole is by resistance R4X connection optocouplers IC2X 1 pin, and two Pole pipe D2X negative pole passes through resistance R13X connections electricity by resistance R3X connecting triodes Q4X base stage, triode Q4X base stage Hold C9X negative pole, triode Q4X emitter stage passes through electric capacity C11X connection electric capacity C9X negative pole, electric capacity C9X negative pole and three Pole pipe Q4X emitter stage is all connected with the 3rd switch, and diode D2X negative pole also passes through resistance R16X connecting triodes Q4X Emitter stage, triode Q4X colelctor electrode connection optocoupler IC2X 2 pin, optocoupler IC2X 3 pin by electric capacity C2X connection ground wires, Optocoupler IC2X 3 pin are also connected with the buffer, optocoupler IC2X 4 pin connection ground wire；

Transformer T2X 5 pin connection diode D4X positive pole, transformer T2X 6 pin connection electric capacity C8X negative pole, two Pole pipe D4X negative pole connection electric capacity C8X positive pole, diode D4X negative pole by resistance R14X connection optocouplers IC4X 1 pin, Diode D4X negative pole is connected by resistance R11X connecting triodes Q3X base stage, triode Q3X base stage by resistance R12X Electric capacity C8X negative pole is connect, triode Q3X emitter stage passes through electric capacity C10X connection electric capacity C8X negative pole, electric capacity C8X negative pole The 4th switch is all connected with triode Q3X emitter stage, diode D4X negative pole also passes through resistance R15X connecting triodes Q3X emitter stage, triode Q3X colelctor electrode connection optocoupler IC4X 2 pin, optocoupler IC4X 3 pin are connected by electric capacity C12X Ground wire, optocoupler IC4X 3 pin are also connected with the buffer, optocoupler IC4X 4 pin connection ground wire.

The model IRF512 of the FET Q18.

The model 74LS165 of the buffer；The model MAX518 of the digital analog converter；Second modulus turns The model of parallel operation and first analog-digital converter is ad1674；The CPU module is ARM9 processors.

The model TCS2802 of the overvoltage protective module；The model HX1.25-A-10PW of the connector.

A kind of control device of rapid blood coagulation cutter device described in the utility model, solve while use manual switch The problem of controlling operating theater instruments blood coagulation with Foot-controlled switch, solve and provide high current to operating theater instruments using low-voltage dc power supply The problem of power supply.

Brief description of the drawings

Fig. 1 is schematic diagram block diagram of the present utility model；

Fig. 2 is the schematic diagram block diagram of identification wiring board 106 of the present utility model；

Fig. 3 is the structural representation that plug 1020 of the present utility model is inserted after socket 1021；

Fig. 4 is the schematic diagram of isolating switch power unit of the present utility model

Fig. 5 is the schematic diagram of phototube coupling unit of the present utility model；

Fig. 6 is the schematic diagram of inverter circuit 209 of the present utility model；

Fig. 7 is the schematic diagram of regulator rectifier circuit 202 of the present utility model；

Fig. 8 is the schematic diagram of recognition unit 101 of the present utility model；

Fig. 9 is the schematic diagram block diagram of RF power amplification plate 3011 of the present utility model；

In figure：Recognition unit 101, power module 102, main control chip 103, LED indicating modules 104, signal output Interface 105, identification wiring board 106, jack housing 107, the first groove 1010, the 4th groove 1011, the second groove 1014th, the 5th groove 1017, the 3rd groove 1018, the 6th groove 1019, plug 1020, socket 1021, connector 1022nd, voltage transformer 201, regulator rectifier circuit 202, voltage current transformer 205, OR gate module 206, second interface 207th, first interface 208, inverter circuit 209, dc source 2010, voltage comparator 2011, NAND gate module 2012, Metal-oxide-semiconductor drive module 2013, radiofrequency signal generation module 2014, button 301, first switch 302, second switch 303, 3rd switch the 304, the 4th switch 305, isolation circuit 306, buffer 307, power amplifier 308, overvoltage protective module 309, Digital analog converter 3010, RF power amplification plate 3011, the second analog-digital converter 3018, the first analog-digital converter 3019, second Touch-screen 3020, CPU module 3021, the first touch-screen 3022, cutter head recognition unit 3024.

Embodiment

A kind of control device of rapid blood coagulation cutter device as shown in figs 1-9, including control panel, RF power amplification plate 3011 With two cutter head recognition units 3024, RF power amplification plate 3011 and two cutter head recognition units 3024 are connected with control panel；

Control panel include button 301, first switch 302, second switch the 303, the 3rd switch the 304, the 4th switch 305, every From circuit 306, buffer 307, power amplifier 308, overvoltage protective module 309, digital analog converter 3010, the second analog-digital converter 3018th, the first analog-digital converter 3019, the second touch-screen 3020, the touch-screen 3022 of CPU module 3021 and first；

First switch 302, the switch of second switch the 303, the 3rd 304 and the 4th switch 305 connect isolation electricity by wire Road 306；

The Connection Cache device 307 of isolation circuit 306；301, two cutter head recognition units 3024 of button are connected slow by wire Storage 307；

Buffer 307, power amplifier 308, overvoltage protective module 309, digital analog converter 3010, the second touch-screen 3020, radio frequency The touch-screen 3022 of power board 3011 and first is all connected with CPU module 3021；

Overvoltage protective module 309 connects RF power amplification plate 3011 with digital analog converter 3010 by wire；

Second analog-digital converter 3018 connects RF power amplification plate 3011 with the first analog-digital converter 3019 by wire, the Two analog-digital converters 3018 and the first analog-digital converter 3019 are also all connected with CPU module 3021.

The RF power amplification plate 3011 is provided with voltage transformer 201, regulator rectifier circuit 202, voltage current transformer 205th, OR gate module 206, second interface 207, first interface 208, inverter circuit 209, dc source 2010, voltage comparator 2011st, NAND gate module 2012, metal-oxide-semiconductor drive module 2013 and radiofrequency signal generation module 2014, dc source 2010 connect Metal-oxide-semiconductor drive module 2013, dc source 2010 also connect the overvoltage protective module 309, dc source 2010 by wire VCC positive supplies are exported, second interface 207 and first interface 208 are all connected with inverter circuit 209, and voltage transformer 201 connects rectification Mu balanced circuit 202, regulator rectifier circuit 202 connect voltage comparator 2011, and voltage comparator 2011 connects OR gate module 206, OR gate module 206 connects metal-oxide-semiconductor drive module 2013, and metal-oxide-semiconductor drive module 2013 connects inverter circuit 209, the CPU module 3021 connection voltage comparators 2011, radiofrequency signal generation module 2014 connect NAND gate module 2012, NAND gate module 2012 Connect OR gate module 206；

The inverter circuit 209 includes inductance L2, inductance L3, TVS diode TS1, TVS diode TS2, TVS diode TS3, electric capacity C115, electric capacity C116, electric capacity C117, electric capacity C119, electric capacity C136, electric capacity C153, electric capacity C135, electric capacity C114, Short circuit wire W1 and short circuit wire W2；Inductance L2 1 pin and inductance L3 1 pin are all connected with the metal-oxide-semiconductor drive module 2013, electricity Feel L2 2 pin connection electric capacity C153 1 pin, inductance L2 2 pin pass through electric capacity C115 connection electric capacity C116 2 pin, electric capacity C116 1 pin connection TVS diode TS1 1 pin, TVS diode TS1 2 pin pass through TVS diode TS2 connection TVS diodes TS3 1 pin, TVS diode TS3 2 pin connection electric capacity C136 1 pin, the electric capacity of electric capacity C116 1 pin also by being connected in series C117 connects electric capacity C136 1 pin with electric capacity C119, inductance L3 2 pin connection electric capacity C136 1 pin, sets short circuit wire W1's One end is short circuit wire W1 1 pin, and the other end is short circuit wire W1 2 pin, sets short circuit wire W2 one end as short circuit wire W2 1 pin, the other end are short circuit wire W2 2 pin, electric capacity C136 2 pin connection short circuit wire W2 1 pin, the 2 of electric capacity C136 Pin is also connected with short circuit wire W1 2 pin, and short circuit wire W1 1 pin connects electricity by the electric capacity C135 being connected in parallel with electric capacity C114 Hold C153 2 pin, electric capacity C153 2 pin constitute the output end of the inverter circuit 209 with short circuit wire W2 2 pin；

The regulator rectifier circuit 202 includes diode D1B, diode D2B, diode D3B, diode D4B, resistance R1B and diode D5B, diode D1B positive pole and diode D2B positive pole are all connected with the voltage transformer 201, diode D1B cathode connecting diode D3B negative pole, diode D3B positive pole connection ground wire, diode D2B positive pole connect two poles Pipe D4B negative pole, diode D4B positive pole connection ground wire, diode D1B negative pole connection diode D2B negative pole, diode D2B negative pole is by resistance R1B connection ground wires, and diode D2B negative pole connection diode D5B negative pole, diode D5B is just Pole connects ground wire, and diode D5B negative pole connects the voltage comparator 2011；The model of the voltage transformer 201 JDZX16A-10R；The model DSPIC4011 of the radiofrequency signal generation module 2014；The model of OR gate module 206 74F32；The model LM339 of voltage comparator 2011；The model 74HC00 of NAND gate module 2012；Metal-oxide-semiconductor drive module 2013 model MIC4451；The first interface 208 and the second interface 207 are binding post；The first interface 208 connect the first cutter head recognition unit 3024 by wire, and the second interface 207 connects the cutter head by wire and identifies list Member 3023；

The voltage current transformer 205 includes voltage collector and LZZBJ9-12 type current transformers；The voltage is adopted The model JDZX16A-10R type voltage transformers of storage；

The voltage collector and voltage transformer 201 are set on the short circuit wire W1, in the short circuit wire W2 Upper setting institute LZZBJ9-12 type current transformers, voltage collector connect second analog-digital converter 3018 by wire, LZZBJ9-12 types current transformer is the first analog-digital converter 3019 by wire connection.

The cutter head recognition unit 3024 includes socket 1021, and socket 1021 includes jack housing 107 and identification wiring board 106, identification wiring board 106 is in jack housing 107；

Identification wiring board 106 includes main control chip 103, connector 1022, recognition unit 101, power module 102, LED and referred to Show module 104 and signal output interface 105, recognition unit 101, LED indicating modules 104 and signal output interface 105 with master Control chip 103 connects；Power module 102 is that main control chip 103, recognition unit 101 and LED indicating modules 104 are powered, power supply mould Block 102 exports 5V positive supplies；

Recognition unit 101 includes the first photovoltaic element, the second photovoltaic element and the 3rd photovoltaic element；

First photovoltaic element include resistance R33, photoelectric sensor U9, resistance R34, resistance R35, resistance R36, electric capacity C12, Resistance R16, resistance R20, electric capacity C6, resistance R37, resistance R38, photoelectric sensor U11, resistance R39, resistance R40, resistance R41, Electric capacity C9, resistance R26, resistance R31, electric capacity C10, resistance R42 and amplifier U10, photoelectric sensor U9 1 pin pass through resistance R33 Connect 5V positive supplies, photoelectric sensor U9 2 pin connection ground wire, photoelectric sensor U9 3 pin pass through the resistance R34 that is connected in series 5V positive supplies are connected with resistance R35, photoelectric sensor U9 3 pin pass through electric capacity C12 connection photoelectric sensors U9 4 pin, photoelectricity Sensor U9 3 pin also also pass through resistance R37 connection amplifiers by resistance R36 connection amplifiers U10 3 pin, amplifier U10 3 pin U10 1 pin, amplifier U10 2 pin are by resistance R16 connection 5V positive supplies, the resistance of amplifier U10 2 pin also by being connected in parallel R20 connects ground wire with electric capacity C6, and amplifier U10 1 pin connects the main control chip 103；Photoelectric sensor U11 1 pin passes through electricity Hinder R38 connection 5V positive supplies, photoelectric sensor U11 2 pin connect ground wire, and photoelectric sensor U11 3 pin are by being connected in series Resistance R39 connects 5V positive supplies with resistance R40, and photoelectric sensor U11 3 pin pass through the 4 of electric capacity C9 connection photoelectric sensors U11 Pin, photoelectric sensor U11 3 pin also also pass through resistance R42 by resistance R41 connection amplifiers U10 5 pin, amplifier U10 5 pin Amplifier U10 7 pin are connected, amplifier U10 6 pin are also connected by resistance R26 connection 5V positive supplies, amplifier U10 6 pin by parallel connection The resistance R31 connect connects ground wire with electric capacity C10, and amplifier U10 7 pin connect the main control chip 103；

Second photovoltaic element include resistance R13, photoelectric sensor U5, resistance R14, resistance R17, resistance R18, electric capacity C5, Resistance R15, resistance R19, electric capacity C7, resistance R22, resistance R23, photoelectric sensor U7, resistance R24, resistance R28, resistance R29, Electric capacity C8, resistance R25, resistance R30, electric capacity C11, resistance R32 and amplifier U6, photoelectric sensor U5 1 pin are connected by resistance R13 Connect 5V positive supplies, photoelectric sensor U5 2 pin connection ground wire, photoelectric sensor U5 3 pin by the resistance R14 that is connected in series and Resistance R17 connection 5V positive supplies, photoelectric sensor U5 3 pin pass through electric capacity C5 connection photoelectric sensors U5 4 pin, photoelectric sensing Device U5 3 pin also also pass through the 1 of resistance R22 connection amplifiers U6 by resistance R18 connection amplifiers U6 3 pin, amplifier U6 3 pin Pin, amplifier U6 2 pin are by resistance R15 connection 5V positive supplies, the resistance R19 and electricity of amplifier U6 2 pin also by being connected in parallel Hold C7 connection ground wires, amplifier U6 1 pin connects the main control chip 103；Photoelectric sensor U7 1 pin is connected by resistance R23 5V positive supplies, photoelectric sensor U7 2 pin connection ground wire, photoelectric sensor U7 3 pin pass through the resistance R24 and electricity that are connected in series R28 connection 5V positive supplies are hindered, photoelectric sensor U7 3 pin pass through electric capacity C8 connection photoelectric sensors U7 4 pin, photoelectric sensor U7 3 pin also by resistance R29 connection amplifiers U6 5 pin, amplifier U6 5 pin also by resistance R32 connection amplifiers U6 7 pin, Amplifier U6 6 pin are by resistance R25 connection 5V positive supplies, the resistance R30 and electric capacity of amplifier U6 6 pin also by being connected in parallel C11 connection ground wires, amplifier U6 7 pin connect the main control chip 103；

3rd photovoltaic element includes resistance R1, photoelectric sensor U1, resistance R2, resistance R4, resistance R5, electric capacity C1, resistance R3, resistance R6, electric capacity C2, resistance R21, resistance R7, photoelectric sensor U3, resistance R8, resistance R27, resistance R10, electric capacity C3, electricity R9, resistance R11, electric capacity C4, resistance R12 and amplifier U2, photoelectric sensor U1 1 pin are hindered by resistance R1 connection 5V positive supplies, Photoelectric sensor U1 2 pin connection ground wire, photoelectric sensor U1 3 pin connect 5V by the resistance R2 being connected in series with resistance R4 Positive supply, photoelectric sensor U1 3 pin are also logical by electric capacity C1 connection photoelectric sensors U1 4 pin, photoelectric sensor U1 3 pin Resistance R5 connection amplifiers U2 3 pin are crossed, amplifier U2 3 pin are also led to by resistance R21 connection amplifiers U2 1 pin, amplifier U2 2 pin Resistance R3 connection 5V positive supplies are crossed, amplifier U2 2 pin also connect ground wire, amplifier U2 with electric capacity C2 by the resistance R6 being connected in parallel 1 pin connect the main control chip 103；Photoelectric sensor U3 1 pin passes through resistance R7 connection 5V positive supplies, photoelectric sensor U3 2 pin connection ground wire, photoelectric sensor U3 3 pin connect 5V positive supplies, photoelectricity by the resistance R8 being connected in series with resistance R27 Sensor U3 3 pin are also connected by electric capacity C3 connection photoelectric sensors U3 4 pin, photoelectric sensor U3 3 pin by resistance R10 Amplifier U2 5 pin are connect, amplifier U2 5 pin are also connected by resistance R12 connection amplifiers U2 7 pin, amplifier U2 6 pin by resistance R9 5V positive supplies are connect, amplifier U2 6 pin also connect ground wire, amplifier U2 7 pin connection with electric capacity C4 by the resistance R11 being connected in parallel The main control chip 103；

The LED indicating modules 104 are LED；The signal output interface 105 is binding post；The main control chip 103 model STC89C52；

The signal output interface 105 connects the buffer 307 by wire, and the first interface 208 passes through wire Connect the connector 1022 in a cutter head recognition unit 3024；Second interface 207 connects another cutter head by wire The connector 1022 in recognition unit 3024.

The isolation circuit 306 includes isolating switch power unit and phototube coupling unit；

Isolating switch power unit includes NE555 chip ICs 5X, diode D17X, resistance R18X, resistance R19X, electric capacity C16X, electric capacity C17X, electric capacity C13X, electric capacity C14X, electric capacity C15X, resistance R20X, FET Q18X, electric capacity C19X, transformation Device T1X and transformer T2X, NE555 chip IC 5X 8 pin and 4 pin are all connected with VCC positive supplies, and NE555 chip ICs 5X 8 pin are also By resistance R19X connection NE555 chip ICs 5X 7 pin, NE555 chip ICs 5X 7 pin pass through resistance R18X connection NE555 cores Piece IC5X 6 pin, diode D17X positive pole connection NE555 chip ICs 5X 7 pin, diode D17X negative pole connection NE555 Chip IC 5X 6 pin, NE555 chip ICs 5X 2 pin and 6 pin are by electric capacity C16X connection ground wires, and the 1 of NE555 chip ICs 5X Pin connects ground wire, and NE555 chip ICs 5X 5 pin are by electric capacity C17X connection ground wires, and NE555 chip ICs 5X 8 pin are also by simultaneously Electric capacity C13X, the electric capacity C15X of connection connection connect ground wire with electric capacity C15X, and transformer T1X 1 pin and transformer T2X 1 pin are equal Connect NE555 chip ICs 5X 8 pin, NE555 chip ICs 5X 3 pin by resistance R20X connection FETs Q18X grid, FET Q18X source electrode connection ground wire, FET Q18X drain electrode by electric capacity C19X connection ground wires, transformer T1X's 2 pin and transformer T2X 2 pin are all connected with FET Q18X drain electrode；

Phototube coupling unit includes diode D1X, diode D2X, diode D3X, diode D4X, resistance R1X, resistance R2X, resistance R3X, resistance R4X, resistance R5X, resistance R6X, resistance R7X, resistance R8X, resistance R9X, resistance R10X, resistance R11X, resistance R12X, resistance R13X, resistance R14X, resistance R15X, resistance R16X, triode Q1X, triode Q2X, triode Q3X, triode Q4X, electric capacity C1X, electric capacity C2X, electric capacity C3X, electric capacity C4X, electric capacity C5X, electric capacity C6X, electric capacity C7X, electric capacity C8X, electric capacity C9X, electric capacity C10X, electric capacity C11X, electric capacity C12X, optocoupler IC1X, optocoupler IC2X, optocoupler IC3X and optocoupler IC4X, Transformer T1X 3 pin connection diode D1X positive pole, transformer T1X 4 pin connection electric capacity C4X negative pole, diode D1X's Negative pole connection electric capacity C4X positive pole, diode D1X negative pole by resistance R2X connection optocouplers IC1X 1 pin, diode D1X's Negative pole passes through the negative of resistance R7X connection electric capacity C4X by resistance R1X connecting triodes Q2X base stage, triode Q2X base stage Pole, triode Q2X emitter stage pass through electric capacity C6X connection electric capacity C4X negative pole, electric capacity C4X negative pole and triode Q2X hair Emitter-base bandgap grading is all connected with the first switch 302, diode D1X negative pole also by resistance R10X connecting triodes Q2X emitter stage, Triode Q2X colelctor electrode connection optocoupler IC1X 2 pin, optocoupler IC1X 3 pin pass through electric capacity C1X connection ground wires, optocoupler IC1X 3 pin be also connected with the buffer 307, optocoupler IC1X 4 pin connection ground wire；

Transformer T1X 5 pin connection diode D3X positive pole, transformer T1X 6 pin connection electric capacity C3X negative pole, two Pole pipe D3X negative pole connection electric capacity C3X positive pole, diode D3X negative pole is by resistance R8X connection optocouplers IC3X 1 pin, and two Pole pipe D3X negative pole passes through resistance R6X connections electricity by resistance R5X connecting triodes Q1X base stage, triode Q1X base stage Hold C3X negative pole, triode Q1X emitter stage passes through electric capacity C5X connection electric capacity C3X negative pole, electric capacity C3X negative pole and three poles Pipe Q1X emitter stage is all connected with the second switch 303, and diode D3X negative pole also passes through resistance R9X connecting triodes Q1X Emitter stage, triode Q1X colelctor electrode connection optocoupler IC3X 2 pin, optocoupler IC3X 3 pin by electric capacity C7X connection ground wires, Optocoupler IC3X 3 pin are also connected with the buffer 307, optocoupler IC3X 4 pin connection ground wire；

Transformer T2X 3 pin connection diode D2X positive pole, transformer T2X 4 pin connection electric capacity C9X negative pole, two Pole pipe D2X negative pole connection electric capacity C9X positive pole, diode D2X negative pole is by resistance R4X connection optocouplers IC2X 1 pin, and two Pole pipe D2X negative pole passes through resistance R13X connections electricity by resistance R3X connecting triodes Q4X base stage, triode Q4X base stage Hold C9X negative pole, triode Q4X emitter stage passes through electric capacity C11X connection electric capacity C9X negative pole, electric capacity C9X negative pole and three Pole pipe Q4X emitter stage is all connected with the 3rd switch 304, and diode D2X negative pole also passes through resistance R16X connecting triodes Q4X emitter stage, triode Q4X colelctor electrode connection optocoupler IC2X 2 pin, optocoupler IC2X 3 pin pass through electric capacity C2X connections ground Line, optocoupler IC2X 3 pin are also connected with the buffer 307, optocoupler IC2X 4 pin connection ground wire；

Transformer T2X 5 pin connection diode D4X positive pole, transformer T2X 6 pin connection electric capacity C8X negative pole, two Pole pipe D4X negative pole connection electric capacity C8X positive pole, diode D4X negative pole by resistance R14X connection optocouplers IC4X 1 pin, Diode D4X negative pole is connected by resistance R11X connecting triodes Q3X base stage, triode Q3X base stage by resistance R12X Electric capacity C8X negative pole is connect, triode Q3X emitter stage passes through electric capacity C10X connection electric capacity C8X negative pole, electric capacity C8X negative pole The 4th switch 305 is all connected with triode Q3X emitter stage, diode D4X negative pole also passes through resistance R15X connections three Pole pipe Q3X emitter stage, triode Q3X colelctor electrode connection optocoupler IC4X 2 pin, optocoupler IC4X 3 pin pass through electric capacity C12X Ground wire is connected, optocoupler IC4X 3 pin are also connected with the buffer 307, optocoupler IC4X 4 pin connection ground wire.

The model IRF512 of the FET Q18.

The model 74LS165 of the buffer 307；The model MAX518 of the digital analog converter 3010；Described The model of two analog-digital converters 3018 and first analog-digital converter 3019 is ad1674；The CPU module 3021 is ARM9 processors.

The model TCS2802 of the overvoltage protective module 309；The model HX1.25-A- of the connector 1022 10PW。

During work, a kind of control device of rapid blood coagulation cutter device can control two operating theater instruments (institutes simultaneously It is prior art to state operating theater instruments, Gu do not describe in detail), first switch 302 is that the manual control carried in first operating theater instruments is opened Close (manual switch is prior art, Gu do not describe in detail), second switch 303 is for controlling first operating theater instruments work The first Foot-controlled switch made, the 3rd switch 304 are that (manual switch is existing for the manual switch that is carried in second operating theater instruments There is technology, Gu do not describe in detail), the 4th switch 305 is for controlling the second Foot-controlled switch of second operating theater instruments work；The The model of one Foot-controlled switch and the second Foot-controlled switch is FJ2701 foot control devices, the input of first operating theater instruments and second The input of operating theater instruments is all connected with the output end of the RF power amplification 308, and the power amplifier 308 connects external loudspeaker；

The utility model can connect a variety of surgery mechanicals, and can be with the species of automatic identification apparatus on hand；

It is equipped with each described operating theater instruments for the control device electricity with a kind of rapid blood coagulation cutter device The plug 1020 of connection, the outer surface of the housing of plug 1020 are provided with the first groove 1010, the second groove 1014, the 3rd groove 1018th, the 4th groove 1011, the 5th groove 1017 and the 6th groove 1019.

After the plug 1020 inserts socket 1021, first groove 1010 is corresponding with the photoelectric sensor U9, institute It is corresponding with the photoelectric sensor U5 to state the second groove 1014, the 3rd groove 1018 is corresponding with the photoelectric sensor U1, 4th groove 1011 is corresponding with the photoelectric sensor U11, the 5th groove 1017 and U7 pairs of the photoelectric sensor Should, the 6th groove 1019 is corresponding with the photoelectric sensor U3.

When plug 1020 dispatches from the factory, producer is first by the first groove 1010, the second groove 1014, the 3rd groove 1018, Four grooves 1011,1019 equal painted white of the 5th groove 1017 and the 6th groove, then producer is recessed by the first groove 1010, second One or more of groove 1014, the 3rd groove 1018, the 4th groove 1011, the 5th groove 1017 and the 6th groove 1019 are painted Black, in this way, the first groove 1010, the second groove 1014, the 3rd groove 1018, the 4th groove 1011, the and of the 5th groove 1017 The color combination of 6th groove 1019 is formed specific identification coding, and black 1, white is 0, and each medicine equipment is equal An identification coding is preset, producer connects medicine equipment pairing corresponding with plug 1020 according to identification coding；Institute It is operating theater instruments to state medicine equipment.

After plug 1020 inserts socket 1021, photoelectric sensor U9, photoelectric sensor U5, photoelectric sensor U1, photoelectricity It is recessed that sensor U11, photoelectric sensor U7 and photoelectric sensor U3 detect the first groove 1010, the second groove the 1014, the 3rd respectively Groove 1018, the 4th groove 1011, the color of the 5th groove 1017 and the 6th groove 1019, and according to the first groove 1010, second Groove 1014, the 3rd groove 1018, the 4th groove 1011, the color generation number of colours of the 5th groove 1017 and the 6th groove 1019 Word signal is sent to main control chip 103, black 1, and white is 0, and main control chip 103 is known according to the color numeral signal generation Do not encode, and judge that medicine equipment corresponding to plug 1020 is any by identifying to encode.

When any one cutter head recognition unit 3024 has detected operating theater instruments access, the generation operation of CPU module 3021 The status signal of apparatus, CPU module 3021 show the working condition of one of operating theater instruments by the first touch-screen 3022, together When CPU module 3021 show the state of another operating theater instruments by the second touch-screen 3020, doctor by first switch 302 or Second switch 303 controls the energization of one of operating theater instruments to open；Doctor passes through the 3rd switch 304 or the control of the 4th switch 305 The energization for making another operating theater instruments is opened；

When doctor, which controls, opens any one operating theater instruments, the drive signal of the operating theater instruments is high_frequency sine wave, 220V alternating currents export high-voltage dc signal after the processing of dc source 2010, and high-voltage dc signal is that inverter circuit 209 carries For driving voltage, and metal-oxide-semiconductor drive module 2013 is then input to the break-make of the high-voltage dc signal in inverter circuit 209, makes defeated Enter to the high-voltage dc signal in inverter circuit 209 and become high frequency square wave, high frequency square wave carries out waveform by inverter circuit 209 again Conversion, so as to form the high_frequency sine wave that the operating theater instruments normal work needs, and pass through first interface 208 or second interface 207 provide the high_frequency sine wave to operating theater instruments.

The dc source 2010 be Switching Power Supply (Switching Power Supply is prior art, Gu not in detail describe).

The voltage signal and electric current letter that voltage current transformer 205 gathers first interface 208 and second interface 207 exports Number, control module 203 produce high-frequency signal, radiofrequency signal generation module 2014 produce radiofrequency signal, voltage comparator 2011, with NOT gate module 2012 and OR gate module 206 carry out logical process to voltage signal, current signal, high-frequency signal and radiofrequency signal, And drive signal is generated, metal-oxide-semiconductor drive module 2013 is according to drive signal come the high straightening in control input to inverter circuit 209 Flow the break-make of signal.

The utility model is powered using external power supply for a kind of control device of rapid blood coagulation cutter device.

When doctor is to first switch 302, the switch 305 of the switch of second switch the 303, the 3rd the 304, the 4th, button 301, first When the touch of touch-screen 3022 or second is operated, CPU module 3021 sends operation indicating sound data, power amplifier 308 to power amplifier 308 Operation indicating sound is sent by external loudspeaker.

A kind of control device of rapid blood coagulation cutter device described in the utility model, solve while use manual switch The problem of controlling operating theater instruments blood coagulation with Foot-controlled switch, solve and provide high current to operating theater instruments using low-voltage dc power supply The problem of power supply.

Claims (7)

1. A kind of 1. control device of rapid blood coagulation cutter device, it is characterised in that：Including control panel, RF power amplification plate (3011) and Two cutter head recognition units (3024), RF power amplification plate (3011) and two cutter head recognition units (3024) connect with control panel Connect；

   Control panel includes button (301), first switch (302), second switch (303), the 3rd switch (304), the 4th switch (305), isolation circuit (306), buffer (307), power amplifier (308), overvoltage protective module (309), digital analog converter (3010), Second analog-digital converter (3018), the first analog-digital converter (3019), the second touch-screen (3020), CPU module (3021) and One touch-screen (3022)；

   First switch (302), second switch (303), the 3rd switch (304) and the 4th switch (305) by wire connect every From circuit (306)；

   Isolation circuit (306) Connection Cache device (307)；Button (301), two cutter head recognition units (3024) are connected by wire Connect buffer (307)；

   Buffer (307), power amplifier (308), overvoltage protective module (309), digital analog converter (3010), the second touch-screen (3020), RF power amplification plate (3011) and the first touch-screen (3022) are all connected with CPU module (3021)；

   Overvoltage protective module (309) connects RF power amplification plate (3011) with digital analog converter (3010) by wire；

   Second analog-digital converter (3018) connects RF power amplification plate (3011) with the first analog-digital converter (3019) by wire, Second analog-digital converter (3018) and the first analog-digital converter (3019) are also all connected with CPU module (3021).
2. A kind of 2. control device of rapid blood coagulation cutter device as claimed in claim 1, it is characterised in that：The RF power amplification Plate (3011) is provided with voltage transformer (201), regulator rectifier circuit (202), voltage current transformer (205), OR gate module (206), second interface (207), first interface (208), inverter circuit (209), dc source (2010), voltage comparator (2011), NAND gate module (2012), metal-oxide-semiconductor drive module (2013) and radiofrequency signal generation module (2014), dc source (2010) metal-oxide-semiconductor drive module (2013) is connected, dc source (2010) also connects the overvoltage protective module by wire (309), dc source (2010) output VCC positive supplies, second interface (207) and first interface (208) are all connected with inverter circuit (209), voltage transformer (201) connection regulator rectifier circuit (202), regulator rectifier circuit (202) connection voltage comparator (2011), voltage comparator (2011) connection OR gate module (206), OR gate module (206) connection metal-oxide-semiconductor drive module (2013), metal-oxide-semiconductor drive module (2013) connection inverter circuit (209), the CPU module (3021) connect voltage comparator (2011), radiofrequency signal generation module (2014) connection NAND gate module (2012), NAND gate module (2012) connection OR gate mould Block (206)；

   The inverter circuit (209) includes inductance L2, inductance L3, TVS diode TS1, TVS diode TS2, TVS diode TS3, electric capacity C115, electric capacity C116, electric capacity C117, electric capacity C119, electric capacity C136, electric capacity C153, electric capacity C135, electric capacity C114, Short circuit wire W1 and short circuit wire W2；Inductance L2 1 pin and inductance L3 1 pin are all connected with the metal-oxide-semiconductor drive module (2013), Inductance L2 2 pin connection electric capacity C153 1 pin, inductance L2 2 pin pass through electric capacity C115 connection electric capacity C116 2 pin, electric capacity C116 1 pin connection TVS diode TS1 1 pin, TVS diode TS1 2 pin pass through TVS diode TS2 connection TVS diodes TS3 1 pin, TVS diode TS3 2 pin connection electric capacity C136 1 pin, the electric capacity of electric capacity C116 1 pin also by being connected in series C117 connects electric capacity C136 1 pin with electric capacity C119, inductance L3 2 pin connection electric capacity C136 1 pin, sets short circuit wire W1's One end is short circuit wire W1 1 pin, and the other end is short circuit wire W1 2 pin, sets short circuit wire W2 one end as short circuit wire W2 1 pin, the other end are short circuit wire W2 2 pin, electric capacity C136 2 pin connection short circuit wire W2 1 pin, the 2 of electric capacity C136 Pin is also connected with short circuit wire W1 2 pin, and short circuit wire W1 1 pin connects electricity by the electric capacity C135 being connected in parallel with electric capacity C114 Hold C153 2 pin, electric capacity C153 2 pin constitute the output end of the inverter circuit (209) with short circuit wire W2 2 pin；

   The regulator rectifier circuit (202) includes diode D1B, diode D2B, diode D3B, diode D4B, resistance R1B With diode D5B, diode D1B positive pole and diode D2B positive pole are all connected with the voltage transformer (201), diode D1B cathode connecting diode D3B negative pole, diode D3B positive pole connection ground wire, diode D2B positive pole connect two poles Pipe D4B negative pole, diode D4B positive pole connection ground wire, diode D1B negative pole connection diode D2B negative pole, diode D2B negative pole is by resistance R1B connection ground wires, and diode D2B negative pole connection diode D5B negative pole, diode D5B is just Pole connects ground wire, and diode D5B negative pole connects the voltage comparator (2011)；The model of the voltage transformer (201) For JDZX16A-10R；The model DSPIC4011 of the radiofrequency signal generation module (2014)；The model of OR gate module (206) For 74F32；The model LM339 of voltage comparator (2011)；The model 74HC00 of NAND gate module (2012)；Metal-oxide-semiconductor drives The model MIC4451 of dynamic model block (2013)；The first interface (208) and the second interface (207) are binding post；

   The voltage current transformer (205) includes voltage collector and LZZBJ9-12 type current transformers；The voltage acquisition The model JDZX16A-10R type voltage transformers of device；

   The voltage collector and the voltage transformer (201) are set on the short circuit wire W1, in the short circuit wire The LZZBJ9-12 types current transformer is set on W2, and the voltage collector connects second analog-to-digital conversion by wire Device (3018), the LZZBJ9-12 types current transformer connect first analog-digital converter (3019) by wire.
3. A kind of 3. control device of rapid blood coagulation cutter device as claimed in claim 2, it is characterised in that：The cutter head identification Unit (3024) includes socket (1021), and socket (1021) includes jack housing (107) and identification wiring board (106), identification line Road plate (106) is in jack housing (107)；

   Identify that wiring board (106) includes main control chip (103), connector (1022), recognition unit (101), power module (102), LED indicating modules (104) and signal output interface (105), recognition unit (101), LED indicating modules (104) and letter Number output interface (105) is connected with main control chip (103)；Power module (102) is main control chip (103), recognition unit (101) and LED indicating modules (104) power supply, power module (102) export 5V positive supplies；

   Recognition unit (101) includes the first photovoltaic element, the second photovoltaic element and the 3rd photovoltaic element；

   First photovoltaic element includes resistance R33, photoelectric sensor U9, resistance R34, resistance R35, resistance R36, electric capacity C12, resistance R16, resistance R20, electric capacity C6, resistance R37, resistance R38, photoelectric sensor U11, resistance R39, resistance R40, resistance R41, electric capacity C9, resistance R26, resistance R31, electric capacity C10, resistance R42 and amplifier U10, photoelectric sensor U9 1 pin are connected by resistance R33 5V positive supplies, photoelectric sensor U9 2 pin connection ground wire, photoelectric sensor U9 3 pin pass through the resistance R34 and electricity that are connected in series R35 connection 5V positive supplies are hindered, photoelectric sensor U9 3 pin pass through electric capacity C12 connection photoelectric sensors U9 4 pin, photoelectric sensing Device U9 3 pin also also pass through resistance R37 connection amplifiers U10's by resistance R36 connection amplifiers U10 3 pin, amplifier U10 3 pin 1 pin, amplifier U10 2 pin by resistance R16 connection 5V positive supplies, amplifier U10 2 pin also by the resistance R20 that is connected in parallel and Electric capacity C6 connection ground wires, amplifier U10 1 pin connect the main control chip (103)；Photoelectric sensor U11 1 pin passes through resistance R38 connection 5V positive supplies, photoelectric sensor U11 2 pin connection ground wire, photoelectric sensor U11 3 pin pass through the electricity that is connected in series Resistance R39 connects 5V positive supplies with resistance R40, and photoelectric sensor U11 3 pin pass through the 4 of electric capacity C9 connection photoelectric sensors U11 Pin, photoelectric sensor U11 3 pin also also pass through resistance R42 by resistance R41 connection amplifiers U10 5 pin, amplifier U10 5 pin Amplifier U10 7 pin are connected, amplifier U10 6 pin are also connected by resistance R26 connection 5V positive supplies, amplifier U10 6 pin by parallel connection The resistance R31 connect connects ground wire with electric capacity C10, and amplifier U10 7 pin connect the main control chip (103)；

   Second photovoltaic element includes resistance R13, photoelectric sensor U5, resistance R14, resistance R17, resistance R18, electric capacity C5, resistance R15, resistance R19, electric capacity C7, resistance R22, resistance R23, photoelectric sensor U7, resistance R24, resistance R28, resistance R29, electric capacity C8, resistance R25, resistance R30, electric capacity C11, resistance R32 and amplifier U6, photoelectric sensor U5 1 pin pass through resistance R13 connections 5V Positive supply, photoelectric sensor U5 2 pin connection ground wire, photoelectric sensor U5 3 pin pass through the resistance R14 and resistance that are connected in series R17 connection 5V positive supplies, photoelectric sensor U5 3 pin pass through electric capacity C5 connection photoelectric sensors U5 4 pin, photoelectric sensor U5 3 pin also by resistance R18 connection amplifiers U6 3 pin, amplifier U6 3 pin also pass through resistance R22 connection amplifiers U6 1 pin, fortune 2 pin for putting U6 are also connected by resistance R15 connection 5V positive supplies, amplifier U6 2 pin by the resistance R19 and electric capacity C7 that are connected in parallel Ground wire, amplifier U6 1 pin connect the main control chip (103)；Photoelectric sensor U7 1 pin by resistance R23 connections 5V just Power supply, photoelectric sensor U7 2 pin connection ground wire, photoelectric sensor U7 3 pin pass through the resistance R24 and resistance that are connected in series R28 connection 5V positive supplies, photoelectric sensor U7 3 pin pass through electric capacity C8 connection photoelectric sensors U7 4 pin, photoelectric sensor U7 3 pin also by resistance R29 connection amplifiers U6 5 pin, amplifier U6 5 pin also pass through resistance R32 connection amplifiers U6 7 pin, fortune U6 6 pin are put by resistance R25 connection 5V positive supplies, the resistance R30 and electric capacity C11 of amplifier U6 6 pin also by being connected in parallel Ground wire is connected, amplifier U6 7 pin connect the main control chip (103)；

   3rd photovoltaic element includes resistance R1, photoelectric sensor U1, resistance R2, resistance R4, resistance R5, electric capacity C1, resistance R3, electricity Hinder R6, electric capacity C2, resistance R21, resistance R7, photoelectric sensor U3, resistance R8, resistance R27, resistance R10, electric capacity C3, resistance R9, Resistance R11, electric capacity C4, resistance R12 and amplifier U2, photoelectric sensor U1 1 pin pass through resistance R1 connection 5V positive supplies, photoelectric transfer Sensor U1 2 pin connection ground wire, photoelectric sensor U1 3 pin connect 5V positive electricity by the resistance R2 being connected in series with resistance R4 Source, photoelectric sensor U1 3 pin also pass through electricity by electric capacity C1 connection photoelectric sensors U1 4 pin, photoelectric sensor U1 3 pin R5 connection amplifiers U2 3 pin are hindered, amplifier U2 3 pin also pass through electricity by resistance R21 connection amplifiers U2 1 pin, amplifier U2 2 pin Hindering R3 connection 5V positive supplies, amplifier U2 2 pin also connect ground wire with electric capacity C2 by the resistance R6 being connected in parallel, and the 1 of amplifier U2 Pin connects the main control chip (103)；Photoelectric sensor U3 1 pin passes through resistance R7 connection 5V positive supplies, photoelectric sensor U3 2 pin connection ground wire, photoelectric sensor U3 3 pin connect 5V positive supplies, photoelectricity by the resistance R8 being connected in series with resistance R27 Sensor U3 3 pin are also connected by electric capacity C3 connection photoelectric sensors U3 4 pin, photoelectric sensor U3 3 pin by resistance R10 Amplifier U2 5 pin are connect, amplifier U2 5 pin are also connected by resistance R12 connection amplifiers U2 7 pin, amplifier U2 6 pin by resistance R9 5V positive supplies are connect, amplifier U2 6 pin also connect ground wire, amplifier U2 7 pin connection with electric capacity C4 by the resistance R11 being connected in parallel The main control chip (103)；

   The LED indicating modules (104) are LED；The signal output interface (105) is binding post；The main control chip (103) model STC89C52；

   The signal output interface (105) connects the buffer (307) by wire, and the first interface (208) is by leading Line connects the connector (1022) in a cutter head recognition unit (3024)；Second interface (207) is connected another by wire The connector (1022) in one cutter head recognition unit (3024).
4. A kind of 4. control device of rapid blood coagulation cutter device as claimed in claim 3, it is characterised in that：The isolation circuit (306) isolating switch power unit and phototube coupling unit are included；

   Isolating switch power unit include NE555 chip ICs 5X, diode D17X, resistance R18X, resistance R19X, electric capacity C16X, Electric capacity C17X, electric capacity C13X, electric capacity C14X, electric capacity C15X, resistance R20X, FET Q18X, electric capacity C19X, transformer T1X With transformer T2X, NE555 chip ICs 5X 8 pin and 4 pin are all connected with VCC positive supplies, and NE555 chip ICs 5X 8 pin also pass through electricity R19X connection NE555 chip ICs 5X 7 pin are hindered, NE555 chip ICs 5X 7 pin pass through resistance R18X connection NE555 chip ICs 5X 6 pin, diode D17X positive pole connection NE555 chip ICs 5X 7 pin, diode D17X negative pole connection NE555 chips IC5X 6 pin, NE555 chip ICs 5X 2 pin and 6 pin are connected by electric capacity C16X connection ground wires, NE555 chip ICs 5X 1 pin Ground wire, NE555 chip ICs 5X 5 pin are also connected by electric capacity C17X connection ground wires, NE555 chip ICs 5X 8 pin by parallel connection Electric capacity C13X, electric capacity C15X and the electric capacity C15X connect connects ground wire, and transformer T1X 1 pin and transformer T2X 1 pin are all connected with NE555 chip ICs 5X 8 pin, NE555 chip ICs 5X 3 pin pass through resistance R20X connection FETs Q18X grid, field effect Should pipe Q18X source electrode connection ground wire, FET Q18X drain electrode passes through electric capacity C19X connection ground wires, transformer T1X 2 pin FET Q18X drain electrode is all connected with transformer T2X 2 pin；

   Phototube coupling unit include diode D1X, diode D2X, diode D3X, diode D4X, resistance R1X, resistance R2X, Resistance R3X, resistance R4X, resistance R5X, resistance R6X, resistance R7X, resistance R8X, resistance R9X, resistance R10X, resistance R11X, electricity Hinder R12X, resistance R13X, resistance R14X, resistance R15X, resistance R16X, triode Q1X, triode Q2X, triode Q3X, three poles Pipe Q4X, electric capacity C1X, electric capacity C2X, electric capacity C3X, electric capacity C4X, electric capacity C5X, electric capacity C6X, electric capacity C7X, electric capacity C8X, electric capacity C9X, electric capacity C10X, electric capacity C11X, electric capacity C12X, optocoupler IC1X, optocoupler IC2X, optocoupler IC3X and optocoupler IC4X, transformer T1X 3 pin connection diode D1X positive pole, transformer T1X 4 pin connection electric capacity C4X negative pole, diode D1X negative pole connection Electric capacity C4X positive pole, diode D1X negative pole are passed through by resistance R2X connection optocouplers IC1X 1 pin, diode D1X negative pole Resistance R1X connecting triodes Q2X base stage, triode Q2X base stage pass through resistance R7X connection electric capacity C4X negative pole, triode By electric capacity C6X connection electric capacity C4X negative pole, electric capacity C4X negative pole and triode Q2X emitter stage connect Q2X emitter stage The first switch (302) is connect, diode D1X negative pole also passes through resistance R10X connecting triodes Q2X emitter stage, triode Q2X colelctor electrode connection optocoupler IC1X 2 pin, optocoupler IC1X 3 pin are by electric capacity C1X connection ground wires, and optocoupler IC1X 3 pin are also Connect the buffer (307), optocoupler IC1X 4 pin connection ground wire；

   Transformer T1X 5 pin connection diode D3X positive pole, transformer T1X 6 pin connection electric capacity C3X negative pole, diode D3X negative pole connection electric capacity C3X positive pole, diode D3X negative pole pass through resistance R8X connection optocouplers IC3X 1 pin, diode D3X negative pole passes through resistance R6X connection electric capacity C3X by resistance R5X connecting triodes Q1X base stage, triode Q1X base stage Negative pole, triode Q1X emitter stage passes through electric capacity C5X connection electric capacity C3X negative pole, electric capacity C3X negative pole and triode Q1X Emitter stage be all connected with the second switch (303), diode D3X negative pole also passes through resistance R9X connecting triodes Q1X hair Emitter-base bandgap grading, triode Q1X colelctor electrode connection optocoupler IC3X 2 pin, optocoupler IC3X 3 pin pass through electric capacity C7X connection ground wires, optocoupler IC3X 3 pin are also connected with the buffer (307), optocoupler IC3X 4 pin connection ground wire；

   Transformer T2X 3 pin connection diode D2X positive pole, transformer T2X 4 pin connection electric capacity C9X negative pole, diode D2X negative pole connection electric capacity C9X positive pole, diode D2X negative pole pass through resistance R4X connection optocouplers IC2X 1 pin, diode D2X negative pole passes through resistance R13X connection electric capacity by resistance R3X connecting triodes Q4X base stage, triode Q4X base stage C9X negative pole, triode Q4X emitter stage pass through electric capacity C11X connection electric capacity C9X negative pole, electric capacity C9X negative pole and three poles Pipe Q4X emitter stage is all connected with the 3rd switch (304), and diode D2X negative pole also passes through resistance R16X connecting triodes Q4X emitter stage, triode Q4X colelctor electrode connection optocoupler IC2X 2 pin, optocoupler IC2X 3 pin pass through electric capacity C2X connections ground Line, optocoupler IC2X 3 pin are also connected with the buffer (307), optocoupler IC2X 4 pin connection ground wire；

   Transformer T2X 5 pin connection diode D4X positive pole, transformer T2X 6 pin connection electric capacity C8X negative pole, diode D4X negative pole connection electric capacity C8X positive pole, diode D4X negative pole pass through resistance R14X connection optocouplers IC4X 1 pin, two poles Pipe D4X negative pole passes through resistance R12X connections electricity by resistance R11X connecting triodes Q3X base stage, triode Q3X base stage Hold C8X negative pole, triode Q3X emitter stage passes through electric capacity C10X connection electric capacity C8X negative pole, electric capacity C8X negative pole and three Pole pipe Q3X emitter stage is all connected with the 4th switch (305), and diode D4X negative pole also passes through the pole of resistance R15X connections three Pipe Q3X emitter stage, triode Q3X colelctor electrode connection optocoupler IC4X 2 pin, optocoupler IC4X 3 pin are connected by electric capacity C12X Ground wire, optocoupler IC4X 3 pin are also connected with the buffer (307), optocoupler IC4X 4 pin connection ground wire.
5. A kind of 5. control device of rapid blood coagulation cutter device as claimed in claim 4, it is characterised in that：The FET Q18 model IRF512.
6. A kind of 6. control device of rapid blood coagulation cutter device as claimed in claim 5, it is characterised in that：The buffer (307) model 74LS165；The model MAX518 of the digital analog converter (3010)；Second analog-digital converter (3018) and the model of first analog-digital converter (3019) is ad1674；The CPU module (3021) is ARM9 processing Device.
7. A kind of 7. control device of rapid blood coagulation cutter device as claimed in claim 6, it is characterised in that：The overvoltage protection The model TCS2802 of module (309)；The model HX1.25-A-10PW of the connector (1022).