CN101324164A - Electromechanical intelligent control circuit for anti-theft lock - Google Patents

Abstract

The invention relates to a control circuit used for an electronic lock, in particular to a control circuit used for an electromechanical intelligent burglar-proof lock, which comprises a main control module and a peripheral control circuit, wherein, the peripheral control circuit comprises a keyboard control module, a motor drive module, an electromagnet drive module, a switch detecting module, a key detecting module and a power control module; the input/output port of a microprocessor in the main control module is connected with all the functional devices in the keyboard control module, the motor drive module, the electromagnet drive module, the switch detecting module and the key detecting module; the power control module provides power for all the modules; the invention provides a control circuit used for the electromechanical intelligent burglar-proof lock, with high integration degree, good reliability and high intelligence degree.

Description

Electromechanical intelligent control circuit for anti-theft lock

(1), technical field:

The present invention relates to a kind of electronic lock control circuit, particularly relate to a kind of electromechanical intelligent control circuit for anti-theft lock.

(2), background technology:

In present lockset industry, various forms of theftproof locks emerge in an endless stream, anti-theft feature is poor because prized easily for general mechanical lock, and mechanical code lock needs when using the opener to learn that password just can unblank by heart, for many people especially old man and child, allow them remember that a series of password has certain degree of difficulty, the user uses inconvenience, the lawless person may open coded lock fully by long examination button simultaneously, afterwards, electronic safety lock has appearred, but only play storage with its matching used electron key, transmit the effect of electronic signal, can not transmit the required machine power of opening the door, its scope of application is restricted, in case lock or key do not have power supply, just can't use.Because inaccessible antitheft purpose or because awkward reason, above-mentioned lockset is abandoned by high-end customer gradually.Common electronic lock adopts electromechanical combined more at present, the electronic signal that the intelligent chip that utilization is installed on the key carries, connect the circuit that opens the door of door lock, utilize the frame for movement transmission of the key required power that opens the door again, but low, the poor reliability of the most integrated degree of the control circuit of this class intelligent lock, and function singleness at present.

(3), summary of the invention:

The technical problem to be solved in the present invention is: the present invention is directed to the prior art deficiency, proposes a kind of integrated degree height, good reliability, and the high electromechanical intelligent control circuit for anti-theft lock of intelligent degree.

Technical scheme of the present invention:

A kind of electromechanical intelligent control circuit for anti-theft lock; contain main control module and peripheral control circuit; peripheral control circuit contains the Keyboard Control module; motor drive module; the solenoid actuated module; the switch detection module; key detection module and energy supply control module; main control module contains microprocessor; the Keyboard Control module contains KBC and connected keyboard; the control mouth of KBC is connected with the I/O port of microprocessor; motor drive module contains motor and motor driver or motor-drive circuit; the output of motor driver or motor-drive circuit is connected with motor; the input of motor driver or motor-drive circuit is connected with the I/O port of microprocessor; the solenoid actuated module contains electromagnet and magnet driver or solenoid driver circuit; the output of magnet driver or solenoid driver circuit is connected with electromagnet coil; the input of magnet driver or solenoid driver circuit is connected with the I/O port of microprocessor; the switch detection module contains switch and level shifting circuit; level shifting circuit contains diode or co-anode diode; switch is connected with the I/O port of microprocessor by level shifting circuit; the key detection module contains electrode and protection device; protection device is located at the I/O port junction of electrode and microprocessor; energy supply control module contains power-supply controller of electric; energy supply control module is a motor drive module; the solenoid actuated module provides power supply, and the control end of the power-supply controller of electric in the energy supply control module is connected with the I/O port of microprocessor.

Main control module also contains mainboard DLL and data storage; the data port of mainboard DLL and data storage is connected with the I/O port of microprocessor; the Keyboard Control module also contains Keyboard Control plate DLL, keyboard light control circuit and light resistor; the input port of Keyboard Control plate DLL, keyboard light control circuit is connected with the I/O port of KBC with light resistor; electrode contains lock core and telecommunications breath transmission cover, and protection device is a parastat.

Switch contains the forced resetting microswitch, described level shifting circuit contains co-anode diode D11, resistance R 15 and capacitor C 12, one end ground connection of forced resetting microswitch, the other end of forced resetting microswitch is connected with ground with power supply with capacitor C 12 by resistance R 15 respectively, and be connected with the negative electrode of co-anode diode D11 and the I/O port OSC2 of microprocessor U12 simultaneously, the anode of co-anode diode D11 is connected with the I/O port RB7 of microprocessor.

Switch also contains the pick-proof microswitch, level shifting circuit also contains resistance R 16 and capacitor C 11, one end ground connection of pick-proof microswitch, the other end of pick-proof microswitch is connected with ground with power supply with capacitor C 11 by resistance R 16 respectively, and is connected with another negative electrode of co-anode diode D11 and the I/O port RA2 of microprocessor simultaneously.

Peripheral control circuit also contains the voice output module, the voice output module contains voice controller, voice driven device or voice driven circuit and loudspeaker, voice controller is connected with loudspeaker by voice driven device or voice driven circuit, the data port of voice controller is connected with the I/O port of microprocessor with the control mouth, and the power supply of voice output module is provided by energy supply control module.

Peripheral control circuit also contains radio receiving transmitting module, radio receiving transmitting module contains RF transceiver and wireless receiving and dispatching drive circuit, the I/O port of RF transceiver is connected with the I/O end of wireless receiving and dispatching drive circuit, and the data port of RF transceiver is connected with the I/O port of microprocessor.

The model of microprocessor is PIC16F7X7; the model of KBC is PIC16F636; the model of voice controller is AP89341S; the model of RF transceiver is CC1100; the model of data storage is 24AA64; the model of motor driver, magnet driver and voice driven device is L9110, and the model of power-supply controller of electric is SP6641B, and the model of parastat is SMBJ6.5CA.

Lock core is connected with the I/O port RB6 of microprocessor, and telecommunications breath transmission cover is connected the positive ending grounding of parastat by resistance R 14 with the I/O port RB4 of microprocessor and the negative terminal of parastat; The keyboard light control circuit contains positive-negative-positive triode Q21, resistance R 21, R22, R23, R24, R25, R2B, R2C, light emitting diode LR21, LR22, LR23, LR24, LR25, the I/O port RA3 of KBC is connected with the base stage of positive-negative-positive triode Q21 by resistance R 2C, the base stage of positive-negative-positive triode Q21 is connected with its emitter stage by resistance R 2B, the colelctor electrode of positive-negative-positive triode Q21 is respectively by resistance R 21, R22, R23, R24, R25 and light emitting diode LR21, LR22, LR23, LR24, the positive pole of LR25 connects, light emitting diode LR21, LR22, LR23, LR24, the minus earth end of LR25, the emitter stage of positive-negative-positive triode Q21 connects power supply, one termination power of light resistor, the other end is connected with the I/O port RC5 of KBC; The control end EN of power-supply controller of electric is connected with the I/O port RB1 of microprocessor; The I/O port of RF transceiver contains RF I/O port RF_N and RF_P, the wireless receiving and dispatching drive circuit contains capacitor C 44, C45, C46, C47, C48, C49, inductance L 41, L42, L43, L44 and antenna, RF I/O port RF_N is connected with the ground end by capacitor C 44, the circuit that RF I/O port RF_P connects successively by inductance L 41 and capacitor C 45 is connected with the ground end, RF I/O port RF_N is connected with RF I/O port RF_P with the circuit that capacitor C 46 is connected successively by inductance L 42, the tie point of inductance L 42 and capacitor C 46 is by inductance L 43, inductance L 44 is connected with described antenna with the circuit that capacitor C 49 is connected successively, the tie point of inductance L 43 and inductance L 44 is connected with the ground end by capacitor C 47, and the tie point of inductance L 44 and capacitor C 49 is connected with the ground end by capacitor C 48.

The output OA of motor driver is connected with the two ends of motor respectively with OB, and the input IB of motor driver is connected with RB3 with the I/O port RA1 of microprocessor with R36 by resistance R 35 respectively with IA; The output OA of magnet driver is connected with the two ends of electromagnet coil respectively with OB, and the input IB of magnet driver is connected with OSC1 with the I/O port RE0 of microprocessor with R39 by resistance R 38 respectively with IA; The data port S1 of voice controller～S8 is connected with the I/O port RD0～RD7 of microprocessor respectively, control mouth SBT, the OUT2 of voice controller is connected with I/O port RC6, the RC2 of microprocessor respectively, the input IB of voice driven device is connected with output end vo 2, the Vo1 of voice controller with R33 by resistance R 32 respectively with IA, and the output OA of voice driven device is connected with the two ends of loudspeaker respectively with OB.

Motor-drive circuit contains triode Q53, Q54, diode D53, D54, relay J 53, J54, triode Q53, the base stage of Q54 is connected with RB3 with the I/O port RA1 of microprocessor with R36 by resistance R 35 respectively, triode Q53, the grounded emitter of Q54, triode Q53, the colelctor electrode of Q54 respectively with diode D53, the positive pole of D54 connects, diode D53, the negative pole of D54 connects power supply, relay J 53, the coil of J54 is attempted by diode D53 respectively, the two ends of D54, relay J 53, the constant close contact of J54 and Chang Kai and contact be ground connection and power supply respectively, relay J 53, the constant close contact of J54 is connected with the two ends of motor respectively with the common port of contact with Chang Kai; Solenoid driver circuit contains triode Q55, Q56, diode D55, D56, relay J 55, J56, triode Q55, the base stage of Q56 is connected with OSC1 with the I/O port RE0 of microprocessor with R39 by resistance R 38 respectively, triode Q55, the grounded emitter of Q56, triode Q55, the colelctor electrode of Q56 respectively with diode D55, the positive pole of D56 connects, diode D55, the negative pole of D56 connects power supply, relay J 55, the coil of J56 is attempted by diode D55 respectively, the two ends of D56, relay J 55, the constant close contact of J56 and Chang Kai and contact be ground connection and power supply respectively, relay J 55, the constant close contact of J56 is connected with the two ends of electromagnet coil respectively with the common port of contact with Chang Kai; The data port S1 of described voice controller～S8 is connected with the I/O port RD0～RD7 of microprocessor respectively, the control mouth SBT of voice controller, OUT2 respectively with the I/O port RC6 of microprocessor, RC2 connects, the voice driven circuit contains triode Q51, Q52, diode D51, D52, relay J 51, J52, triode Q51, the base stage of Q52 is passed through the output end vo 2 of resistance R 32 and R33 and voice controller respectively, Vo1 connects, triode Q51, the grounded emitter of Q52, triode Q51, the colelctor electrode of Q52 respectively with diode D51, the positive pole of D52 connects, diode D51, the negative pole of D52 connects power supply, relay J 51, the coil of J52 is attempted by diode D51 respectively, the two ends of D52, relay J 51, the constant close contact of J52 and Chang Kai and contact be ground connection and power supply respectively, relay J 51, the constant close contact of J52 is connected with the two ends of loudspeaker respectively with the common port of contact with Chang Kai.

Beneficial effect of the present invention:

1, the present invention adopts the PIC16F7X7 chip as microprocessor, external connection keyboard control module, motor drive module, solenoid actuated module, switch detection module, key detection module, voice output module, radio receiving transmitting module and energy supply control module make the integrated degree height of entire circuit, good reliability, function strong.

2, radio receiving transmitting module of the present invention has adopted RF transceiver CC1100, and its preventing decryption ability is very strong, has improved the safety and the reliability of whole dynamoelectric intelligent anti-theft lock system.

3, the present invention adopts the lock core conductor that conduct is connected with key with telecommunications breath transmission cover, and circuit structure is simple, reliability is high, and can make key have the function that can be registered, discern, and in particular cases can be nullified and have not reproducible characteristics by system.

4, switch detection module of the present invention contains the pick-proof microswitch, can detect signal when dynamoelectric intelligent anti-theft lock is prized, and the voice output module is reported to the police, and has so more increased the safety of dynamoelectric intelligent anti-theft lock.

5, the present invention can not cut off its power supply by energy supply control module when the big motor drive module of power consumption, solenoid actuated module and voice output module are not worked, and has saved the power consumption of dynamoelectric intelligent anti-theft lock battery, and is more energy-conservation.

(4), description of drawings:

Fig. 1 is one of theory diagram schematic diagram of electromechanical intelligent control circuit for anti-theft lock;

Fig. 2 be electromechanical intelligent control circuit for anti-theft lock the theory diagram schematic diagram two;

Fig. 3 be electromechanical intelligent control circuit for anti-theft lock the theory diagram schematic diagram three;

Fig. 4 is one of principal diagram intention of main control module in the electromechanical intelligent control circuit for anti-theft lock, switch detection module and key detection module;

Fig. 5 be main control module in the electromechanical intelligent control circuit for anti-theft lock, switch detection module and key detection module the principal diagram intention two;

Fig. 6 is the principal diagram intention of Keyboard Control module in the electromechanical intelligent control circuit for anti-theft lock;

Fig. 7 is one of principal diagram intention of voice output module in the electromechanical intelligent control circuit for anti-theft lock;

Fig. 8 is one of principal diagram intention of motor drive module in the electromechanical intelligent control circuit for anti-theft lock;

Fig. 9 is one of principal diagram intention of solenoid actuated module in the electromechanical intelligent control circuit for anti-theft lock;

Figure 10 is the principal diagram intention of energy supply control module in the electromechanical intelligent control circuit for anti-theft lock;

Figure 11 is the principal diagram intention of radio receiving transmitting module in the electromechanical intelligent control circuit for anti-theft lock;

Figure 12 be voice output module in the electromechanical intelligent control circuit for anti-theft lock the principal diagram intention two;

Figure 13 be motor drive module in the electromechanical intelligent control circuit for anti-theft lock the principal diagram intention two;

Figure 14 be solenoid actuated module in the electromechanical intelligent control circuit for anti-theft lock the principal diagram intention two;

(5), the specific embodiment:

Embodiment one: referring to Fig. 1; Fig. 4; Fig. 6; Fig. 8～Figure 10; among the figure; electromechanical intelligent control circuit for anti-theft lock contains main control module 1 and peripheral control circuit; peripheral control circuit contains the Keyboard Control module; motor drive module; the solenoid actuated module; switch detection module 2; key detection module 3 and energy supply control module; main control module 1 contains microprocessor U12; the Keyboard Control module contains KBC U21 and connected keyboard 5; the control mouth of KBC U21 is connected with the I/O port of microprocessor U12; motor drive module contains motor and motor driver U33; the output of motor driver U33 is connected with motor; the input of motor driver U33 is connected with the I/O port of microprocessor U12; the solenoid actuated module contains electromagnet and magnet driver U34; the output of magnet driver U34 is connected with electromagnet coil; the input of magnet driver U34 is connected with the I/O port of microprocessor U12; switch detection module 2 contains forced resetting microswitch and level shifting circuit; level shifting circuit contains co-anode diode D11; resistance R 15 and capacitor C 12; one end ground connection of forced resetting microswitch; the other end of forced resetting microswitch is connected with ground with power supply with capacitor C 12 by resistance R 15 respectively; and be connected simultaneously with the negative electrode of co-anode diode D11 and the I/O port OSC2 of microprocessor U12; the anode of co-anode diode D11 is connected with the I/O port RB7 of microprocessor U12; key detection module 3 contains lock core; telecommunications breath transmission cover and parastat TVS1; lock core is connected with the I/O port RB6 of microprocessor U12; telecommunications breath transmission cover is connected with the I/O port RB4 of microprocessor U12 and the negative terminal of parastat TVS1 by resistance R 14; the positive ending grounding of parastat TVS1; energy supply control module contains power-supply controller of electric U35; energy supply control module is a motor drive module; the solenoid actuated module provides power supply, and the control end EN of power-supply controller of electric U35 is connected with the I/O port RB1 of microprocessor U12.

Main control module also contains mainboard DLL and data storage U11, the data port of mainboard DLL and data storage U11 is connected with the I/O port of microprocessor U12, the Keyboard Control module also contains Keyboard Control plate DLL, keyboard light control circuit 4 and light resistor R2D, and the input port of Keyboard Control plate DLL, keyboard light control circuit 4 is connected with the I/O port of KBC U21 with light resistor R2D.

The model of microprocessor U12 is PIC16F7X7; the model of KBC U21 is PIC16F636; the model of data storage U11 is 24AA64; the model of motor driver U33 and magnet driver U34 is L9110; the model of power-supply controller of electric U35 is SP6641B, and the model of parastat TVS1 is SMBJ6.5CA.

Keyboard light control circuit 4 contains positive-negative-positive triode Q21, resistance R 21, R22, R23, R24, R25, R2B, R2C, light emitting diode LR21, LR22, LR23, LR24, LR25, the I/O port RA3 of KBC U21 is connected with the base stage of positive-negative-positive triode Q21 by resistance R 2C, the base stage of positive-negative-positive triode Q21 is connected with its emitter stage by resistance R 2B, the colelctor electrode of positive-negative-positive triode Q21 is respectively by resistance R 21, R22, R23, R24, R25 and light emitting diode LR21, LR22, LR23, LR24, the positive pole of LR25 connects, light emitting diode LR21, LR22, LR23, LR24, the minus earth end of LR25, the emitter stage of positive-negative-positive triode Q21 connects power supply, the termination power of light resistor R2D, the other end is connected with the I/O port RC5 of KBC U21.

The output OA of motor driver U33 is connected with the two ends of motor respectively with OB, and the input IB of motor driver U33 is connected with RB3 with the I/O port RA1 of microprocessor U12 with R36 by resistance R 35 respectively with IA; The output OA of magnet driver U34 is connected with the two ends of electromagnet coil respectively with OB, and the input IB of magnet driver U34 is connected with OSC1 with the I/O port RE0 of microprocessor U12 with R39 by resistance R 38 respectively with IA.

Embodiment two: referring to Fig. 1, Fig. 5, Fig. 6, Fig. 8～Figure 10, numbering is identical with embodiment one among the figure, the meaning of representative is identical, its course of work is also basic identical, something in common does not repeat, difference is: switch detection module 2 also contains the pick-proof microswitch, level shifting circuit also contains resistance R 16 and capacitor C 11, one end ground connection of pick-proof microswitch, the other end of pick-proof microswitch is connected with ground with power supply with capacitor C 11 by resistance R 16 respectively, and is connected with another negative electrode of co-anode diode D11 and the I/O port RA2 of microprocessor simultaneously.

Embodiment three: referring to Fig. 2, Fig. 5, Fig. 6～Figure 10, numbering is identical with embodiment two among the figure, the meaning of representative is identical, its course of work is also basic identical, something in common does not repeat, difference is: peripheral control circuit also contains the voice output module, the voice output module contains voice controller U31, voice driven device U32 or loudspeaker, voice controller U31 is connected with loudspeaker by voice driven device U32, the data port of voice controller U31 is connected with the I/O port of microprocessor U12 with the control mouth, and the power supply of voice output module is provided by energy supply control module.

The data port S1 of voice controller U31～S8 is connected with I/O port RD0～RD7 of microprocessor U12 respectively, control mouth SBT, the OUT2 of voice controller U31 is connected with I/O port RC6, the RC2 of microprocessor U12 respectively, the input IB of voice driven device U32 is connected with output end vo 2, the Vo1 of voice controller U31 with R33 by resistance R 32 respectively with IA, and the output OA of voice driven device U32 is connected with the two ends of loudspeaker respectively with OB.

The model of voice controller U31 is AP89341S, and the model of voice driven device U32 is L9110.

Embodiment four: referring to Fig. 3, Fig. 5, Fig. 6～Figure 11, numbering is identical with embodiment three among the figure, the meaning of representative is identical, its course of work is also basic identical, something in common does not repeat, difference is: peripheral control circuit also contains radio receiving transmitting module, radio receiving transmitting module contains RF transceiver U41 and wireless receiving and dispatching drive circuit 6, the I/O port of RF transceiver U41 is connected with the I/O end of wireless receiving and dispatching drive circuit 6, and the data port of RF transceiver U41 is connected with the I/O port of microprocessor U12.

The I/O port of RF transceiver U41 contains RF I/O port RF_N and RF_P, wireless receiving and dispatching drive circuit 6 contains capacitor C 44, C45, C46, C47, C48, C49, inductance L 41, L42, L43, L44 and antenna, RF I/O port RF_N is connected with the ground end by capacitor C 44, the circuit that RF I/O port RF_P connects successively by inductance L 41 and capacitor C 45 is connected with the ground end, RF I/O port RF_N is connected with RF I/O port RF_P with the circuit that capacitor C 46 is connected successively by inductance L 42, the tie point of inductance L 42 and capacitor C 46 is by inductance L 43, inductance L 44 is connected with described antenna with the circuit that capacitor C 49 is connected successively, the tie point of inductance L 43 and inductance L 44 is connected with the ground end by capacitor C 47, and the tie point of inductance L 44 and capacitor C 49 is connected with the ground end by capacitor C 48.

The model of RF transceiver U41 is CC1100.

Embodiment five: referring to Fig. 3, Fig. 5, Fig. 6, Figure 10～Figure 14, numbering is identical with embodiment four among the figure, the meaning of representative is identical, its course of work is also basic identical, something in common does not repeat, difference is: replace motor driver U33 with motor-drive circuit 8, replace magnet driver U34 with solenoid driver circuit 9, replace voice driven device U32 with voice drive circuit 7.

Motor-drive circuit 8 contains triode Q53, Q54, diode D53, D54, relay J 53, J54, triode Q53, the base stage of Q54 is connected with RB3 with the I/O port RA1 of microprocessor U12 with R36 by resistance R 35 respectively, triode Q53, the grounded emitter of Q54, triode Q53, the colelctor electrode of Q54 respectively with diode D53, the positive pole of D54 connects, diode D53, the negative pole of D54 connects power supply, relay J 53, the coil of J54 is attempted by diode D53 respectively, the two ends of D54, relay J 53, the constant close contact of J54 and Chang Kai and contact be ground connection and power supply respectively, relay J 53, the constant close contact of J54 is connected with the two ends of motor respectively with the common port of contact with Chang Kai; Solenoid driver circuit 9 contains triode Q55, Q56, diode D55, D56, relay J 55, J56, triode Q55, the base stage of Q56 is connected with OSC1 with the I/O port RE0 of microprocessor U12 with R39 by resistance R 38 respectively, triode Q55, the grounded emitter of Q56, triode Q55, the colelctor electrode of Q56 respectively with diode D55, the positive pole of D56 connects, diode D55, the negative pole of D56 connects power supply, relay J 55, the coil of J56 is attempted by diode D55 respectively, the two ends of D56, relay J 55, the constant close contact of J56 and Chang Kai and contact be ground connection and power supply respectively, relay J 55, the constant close contact of J56 is connected with the two ends of electromagnet coil respectively with the common port of contact with Chang Kai; Voice driven circuit 7 contains triode Q51, Q52, diode D51, D52, relay J 51, J52, triode Q51, the base stage of Q52 is passed through the output end vo 2 of resistance R 32 and R33 and voice controller U31 respectively, Vo1 connects, triode Q51, the grounded emitter of Q52, triode Q51, the colelctor electrode of Q52 respectively with diode D51, the positive pole of D52 connects, diode D51, the negative pole of D52 connects power supply, relay J 51, the coil of J52 is attempted by diode D51 respectively, the two ends of D52, relay J 51, the constant close contact of J52 and Chang Kai and contact be ground connection and power supply respectively, relay J 51, the constant close contact of J52 is connected with the two ends of loudspeaker respectively with the common port of contact with Chang Kai.

Claims (10)

1; a kind of electromechanical intelligent control circuit for anti-theft lock; contain main control module and peripheral control circuit; it is characterized in that: peripheral control circuit contains the Keyboard Control module; motor drive module; the solenoid actuated module; the switch detection module; key detection module and energy supply control module; main control module contains microprocessor; the Keyboard Control module contains KBC and connected keyboard; the control mouth of KBC is connected with the I/O port of microprocessor; motor drive module contains motor and motor driver or motor-drive circuit; the output of motor driver or motor-drive circuit is connected with motor; the input of motor driver or motor-drive circuit is connected with the I/O port of microprocessor; the solenoid actuated module contains electromagnet and magnet driver or solenoid driver circuit; the output of magnet driver or solenoid driver circuit is connected with electromagnet coil; the input of magnet driver or solenoid driver circuit is connected with the I/O port of microprocessor; the switch detection module contains switch and level shifting circuit; level shifting circuit contains diode or co-anode diode; switch is connected with the I/O port of microprocessor by level shifting circuit; the key detection module contains electrode and protection device; protection device is located at the I/O port junction of electrode and microprocessor; energy supply control module contains power-supply controller of electric; energy supply control module is a motor drive module; the solenoid actuated module provides power supply, and the control end of the power-supply controller of electric in the energy supply control module is connected with the I/O port of microprocessor.

2; electromechanical intelligent control circuit for anti-theft lock according to claim 1; it is characterized in that: described main control module also contains mainboard DLL and data storage; the data port of mainboard DLL and data storage is connected with the I/O port of microprocessor; described Keyboard Control module also contains Keyboard Control plate DLL; keyboard light control circuit and light resistor; Keyboard Control plate DLL; the input port of keyboard light control circuit is connected with the I/O port of KBC with light resistor; described electrode contains lock core and telecommunications breath transmission cover, and described protection device is a parastat.

3, electromechanical intelligent control circuit for anti-theft lock according to claim 1 and 2, it is characterized in that: described switch contains the forced resetting microswitch, described level shifting circuit contains co-anode diode (D11), resistance (R15) and electric capacity (C12), one end ground connection of forced resetting microswitch, the other end of forced resetting microswitch is connected with ground with power supply with electric capacity (C12) by resistance (R15) respectively, and be connected with the negative electrode of co-anode diode (D11) and the I/O port (OSC2) of microprocessor simultaneously, the anode of co-anode diode (D11) is connected with the I/O port (RB7) of microprocessor.

4, electromechanical intelligent control circuit for anti-theft lock according to claim 3, it is characterized in that: described switch also contains the pick-proof microswitch, described level shifting circuit also contains resistance (R16) and electric capacity (C11), one end ground connection of pick-proof microswitch, the other end of pick-proof microswitch is connected with ground with power supply with electric capacity (C11) by resistance (R16) respectively, and is connected with another negative electrode of co-anode diode (D11) and the I/O port (RA2) of microprocessor simultaneously.

5, electromechanical intelligent control circuit for anti-theft lock according to claim 4, it is characterized in that: described peripheral control circuit also contains the voice output module, the voice output module contains voice controller, voice driven device or voice driven circuit and loudspeaker, voice controller is connected with loudspeaker by voice driven device or voice driven circuit, the data port of described voice controller is connected with the I/O port of microprocessor with the control mouth, and the power supply of described voice output module is provided by energy supply control module.

6, electromechanical intelligent control circuit for anti-theft lock according to claim 5, it is characterized in that: described peripheral control circuit also contains radio receiving transmitting module, radio receiving transmitting module contains RF transceiver and wireless receiving and dispatching drive circuit, the I/O port of RF transceiver is connected with the I/O end of wireless receiving and dispatching drive circuit, and the data port of RF transceiver is connected with the I/O port of microprocessor with the control mouth.

7, electromechanical intelligent control circuit for anti-theft lock according to claim 6; it is characterized in that: the model of described microprocessor is PIC16F7X7; the model of KBC is PIC16F636; the model of voice controller is AP89341S; the model of RF transceiver is CC1100, and the model of data storage is 24AA64, and the model of motor driver, magnet driver and voice driven device is L9110; the model of power-supply controller of electric is SP6641B, and the model of parastat is SMBJ6.5CA.

8, electromechanical intelligent control circuit for anti-theft lock according to claim 7, it is characterized in that: described lock core is connected with the I/O port (RB6) of microprocessor, described telecommunications breath transmission cover is connected the positive ending grounding of parastat by resistance (R14) with the I/O port (RB4) of microprocessor and the negative terminal of parastat; The keyboard light control circuit contains positive-negative-positive triode (Q21), resistance (R21), (R22), (R23), (R24), (R25), (R2B), (R2C), light emitting diode (LR21), (LR22), (LR23), (LR24), (LR25), the I/O port of KBC (RA3) is connected with the base stage of positive-negative-positive triode (Q21) by resistance (R2C), the base stage of positive-negative-positive triode (Q21) is connected with its emitter stage by resistance (R2B), the colelctor electrode of positive-negative-positive triode (Q21) is respectively by resistance (R21), (R22), (R23), (R24), (R25) with light emitting diode (LR21), (LR22), (LR23), (LR24), (LR25) positive pole connects, light emitting diode (LR21), (LR22), (LR23), (LR24), (LR25) minus earth end, the emitter stage of positive-negative-positive triode (Q21) connects power supply, one termination power of described light resistor, the other end is connected with the I/O port (RC5) of KBC; The control end of described power-supply controller of electric (EN) is connected with the I/O port (RB1) of microprocessor; The data port of described RF transceiver (SI), (SO), (GDO0) respectively with the I/O port (RC5) of microprocessor, (RC4), (RE2) connect, the control mouth (SCLK) of described RF transceiver, (CSn) respectively with the I/O port (RC3) of microprocessor, (RE2) connect, the I/O port of described RF transceiver contains RF I/O port (RF_N) and (RF_P), described wireless receiving and dispatching drive circuit contains electric capacity (C44), (C45), (C46), (C47), (C48), (C49), inductance (L41), (L42), (L43), (L44) and antenna, described RF I/O port (RF_N) is connected with the ground end by electric capacity (C44), the circuit that described RF I/O port (RF_P) is connected successively by inductance (L41) and electric capacity (C45) is connected with the ground end, RF I/O port (RF_N) is connected with RF I/O port (RF_P) with the circuit that electric capacity (C46) is connected successively by inductance (L42), the tie point of inductance (L42) and electric capacity (C46) is by inductance (L43), inductance (L44) is connected with described antenna with the circuit that electric capacity (C49) is connected successively, the tie point of inductance (L43) and inductance (L44) is connected with the ground end by electric capacity (C47), and the tie point of inductance (L44) and electric capacity (C49) is connected with the ground end by electric capacity (C48).

9, electromechanical intelligent control circuit for anti-theft lock according to claim 8, it is characterized in that: the output of described motor driver (OA) is connected with the two ends of motor respectively with (OB), and the input of motor driver (IB) is connected with (RB3) with the I/O port (RA1) of microprocessor with (R36) by resistance (R35) respectively with (IA); The output of magnet driver (OA) is connected with the two ends of electromagnet coil respectively with (OB), and the input of magnet driver (IB) is connected with (OSC1) with the I/O port (RE0) of microprocessor with (R39) by resistance (R38) respectively with (IA); The data port of described voice controller (S1～S8) respectively with the I/O port (RD0～RD7) be connected of microprocessor, the control mouth (SBT) of voice controller, (OUT2) are connected with I/O port (RC6), (RC2) of microprocessor respectively, the input of voice driven device (IB) is connected with output (Vo2), (Vo1) of voice controller with (R33) by resistance (R32) respectively with (IA), and the output of voice driven device (OA) is connected with the two ends of loudspeaker respectively with (OB).

10, electromechanical intelligent control circuit for anti-theft lock according to claim 8, it is characterized in that: described motor-drive circuit contains triode (Q53), (Q54), diode (D53), (D54), relay (J53), (J54), triode (Q53), (Q54) base stage is connected with (RB3) with the I/O port (RA1) of microprocessor with (R36) by resistance (R35) respectively, triode (Q53), (Q54) grounded emitter, triode (Q53), (Q54) colelctor electrode respectively with diode (D53), (D54) positive pole connects, diode (D53), (D54) negative pole connects power supply, relay (J53), (J54) coil is attempted by diode (D53) respectively, (D54) two ends, relay (J53), (J54) constant close contact and Chang Kai and contact be ground connection and power supply respectively, relay (J53), (J54) constant close contact is connected with the two ends of motor respectively with the common port of contact with Chang Kai; Described solenoid driver circuit contains triode (Q55), (Q56), diode (D55), (D56), relay (J55), (J56), triode (Q55), (Q56) base stage is connected with (OSC1) with the I/O port (RE0) of microprocessor with (R39) by resistance (R38) respectively, triode (Q55), (Q56) grounded emitter, triode (Q55), (Q56) colelctor electrode respectively with diode (D55), (D56) positive pole connects, diode (D55), (D56) negative pole connects power supply, relay (J55), (J56) coil is attempted by diode (D55) respectively, (D56) two ends, relay (J55), (J56) constant close contact and Chang Kai and contact be ground connection and power supply respectively, relay (J55), (J56) constant close contact is connected with the two ends of electromagnet coil respectively with the common port of contact with Chang Kai; The data port of described voice controller (S1～S8) respectively with the I/O port (RD0～RD7) be connected of microprocessor, the control mouth (SBT) of voice controller, (OUT2) respectively with the I/O port (RC6) of microprocessor, (RC2) connect, described voice driven circuit contains triode (Q51), (Q52), diode (D51), (D52), relay (J51), (J52), triode (Q51), (Q52) base stage respectively by resistance (R32) and (R33) and the output of voice controller (Vo2), (Vo1) connect, triode (Q51), (Q52) grounded emitter, triode (Q51), (Q52) colelctor electrode respectively with diode (D51), (D52) positive pole connects, diode (D51), (D52) negative pole connects power supply, relay (J51), (J52) coil is attempted by diode (D51) respectively, (D52) two ends, relay (J51), (J52) constant close contact and Chang Kai and contact be ground connection and power supply respectively, relay (J51), (J52) constant close contact is connected with the two ends of loudspeaker respectively with the common port of contact with Chang Kai.

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