CN2325271Y - Radio remote control mutual direction alarming theft-proof device for motor vehicles - Google Patents

Abstract

The utility model relates to an alarming theft-proof device for motor vehicles, particularly a radio remote control mutual direction alarming theft-proof device for motor vehicles, comprising a remote controller and a receiver. The utility model is characterized in that both the remote controller and an executor comprise a transmitting section and a receiving section. The remote controller is formed by connecting a booster circuit, a coding circuit, a transmitting circuit, a voltage-stabilizing circuit, a high-frequency receiving and amplifying circuit, a regenerating detection circuit, a shaping and amplifying circuit, a decoding circuit and an alarm circuit, and the executor is formed by connecting a receiving circuit, a super-regeneration receiving circuit, the shaping and amplifying circuit, the decoding circuit, the decoding circuit, a delay circuit, the coding circuit, a mute control circuit, the coding circuit, an acoustic-optic alarm circuit, a vibrating detection circuit, an engine locking circuit, a door lock detection circuit, an unlocking and locking circuit, the coding circuit, the transmitting circuit and a countdown circuit. The utility model has the advantages of simple structure, low energy consumption, performs full mute control, and can proceed mutual direction alarming, widely applied to various motor vehicles.

Description

Automobile-use wireless remote control bidirectional alarming anti-joyride device

The utility model relates to a kind of automobile-use alarm anti-theft, particularly a kind of automobile-use wireless remote control bidirectional alarming anti-joyride device.Belong to warning, technical field of burglary prevention.

The self-propelled vehicle alarm anti-theft of prior art, majority is only to have unidirectional warning function, though occurred a kind of wireless remote control bidirectional alarming Car Burglar Alarm recently, but there is following shortcoming in this wireless remote control bidirectional alarming Car Burglar Alarm: 1. complex structure, volume is big, energy consumption is high, need to have only several days together during the use of battery with two joint dry storage batterys or a joint 9V layer-built battery; Therefore 2. do not have mute function, when carrying out antitheft setting, loud horn all can send sound, causes environmental pollution the dead of night at every turn.

The purpose of this utility model is in order to overcome the shortcoming of prior art, provides a kind of volume little, low in energy consumption and be provided with the automobile-use wireless remote control bidirectional alarming anti-joyride device of mute function.

The purpose of this utility model can reach by taking following measure: automobile-use wireless remote control bidirectional alarming anti-joyride device, comprise remote controller and receptor, and its constructional feature is: remote controller and actr all comprise radiating portion and receiving unit, and

A) after remote controller is boosted the direct current (DC) of 1～1.5V by booster circuit, divide two-way output, the encode circuit of wherein leading up to connects modulation transmitter; Another road connects warning circuit by mu balanced circuit, high frequency reception and amplifying circuit, regenerative detection circuit, shaping amplification circuit, decoding circuit;

B) actr passes through Armstrong circuit by acceptor circuit, shaping amplification circuit connects the input end of decoding circuit, the mouth of decoding circuit divides five the tunnel, the first via connects the input end of encode circuit by time delay circuit, the second tunnel the input end by muting control circuit connection encode circuit and sound light alarming circuit, Third Road connects the input end of sound light alarming circuit and engine lock-in circuit by the shock detection circuit, the four tunnel input end by door lock testing circuit connection sound light alarming circuit and engine lock-in circuit, the five tunnel connection is unblanked and goes up lock circuit to connect, the mouth of encode circuit connects the input end of transmission circuit, the mouth of sound light alarming circuit and engine lock-in circuit connects an input end of encode circuit respectively, and the mouth of engine lock-in circuit also connects transmission circuit by countdown circuit.

Constructional feature of the present utility model also has:

A) remote controller is formed by connecting by following element: booster circuit is by K switch 5, IC2 and peripheral inductance thereof boost, filter capacitor and stabilivolt are formed by connecting, encode circuit is by coding IC1 and peripheral resistance thereof, electric capacity, diode and button switch K 1～K4 are formed by connecting, modulation transmitter is by aerotron Q1, adjustable capacitor, inductance and emitting antenna L1 are formed by connecting, mu balanced circuit is made up of voltage stabilizing IC5, high frequency reception and amplifying circuit are by receiving wire L2, aerotron Q2 and peripheral resistance thereof, electric capacity, inductance is formed by connecting, the regenerative detection circuit is by aerotron Q3 and peripheral resistance thereof, electric capacity, inductance is formed by connecting, shaping amplification circuit amplifies IC3 and peripheral resistance thereof by shaping, electric capacity is formed by connecting, decoding circuit is by button switch K 6, decoding IC4 and peripheral resistance thereof, electric capacity is formed by connecting, warning circuit is by aerotron Q4 and Q5, loudspeaker and peripheral resistance thereof, electric capacity is formed by connecting, the coding pin of IC1 of wherein encoding passes through button switch, stabilivolt connects the mouth of voltage stabilizing IC2, emitting antenna L1 and adjustable capacitor connect into the parallel oscillation device, the two ends of this parallel oscillation device connect the collecting electrode of Q1, the mouth that connects IC2 by inductance, the base stage of Q1 connects the mouth of IC1 by resistance R 6, receiving wire L2 connects the base stage of Q2 by electric capacity, the collecting electrode of Q2 connects the collecting electrode of Q3 by electric capacity, the base stage of Q3 connects collecting electrode by an inductance capacitance and joint group, the collecting electrode of Q3 passes through resistance, inductance L 4 connects the mouth of IC5, the emitter of Q3 is by inductance L 8, resistance eutral grounding, capacitor C 15 is connected across between the emitter and collecting electrode of Q3, the emitter of Q3 is by inductance L 8, resistance is connected the input end of IC3 with electric capacity, the mouth of IC3 connects the input end of decoding IC4 by resistance, the mouth of IC4 connects the base stage of Q4 by resistance, the collecting electrode of Q4 connects the base stage of Q5, and the collecting electrode of Q5 connects acoustical generator Y, emitter connects the mouth of IC5;

B) actr is formed by connecting by following element: high frequency receiving circuit is by receiving wire L0, capacitor C 1～C4, inductance L 1～L2 is formed by connecting, high-frequency amplifier circuit is by aerotron Q1, Q2 and peripheral resistance thereof and electric capacity are formed by connecting, the superregenerative detection circuit is by aerotron Q3 and peripheral resistance thereof, electric capacity and inductance are formed by connecting, shaping amplification circuit is by shaping IC1 and peripheral resistance thereof, electric capacity is formed by connecting, decoding circuit is by decoding IC2 and peripheral resistance thereof, electric capacity and diode are formed by connecting, time delay circuit is by monostable triggering IC4 and peripheral resistance thereof, electric capacity and diode are formed by connecting, encode circuit is by coding IC6 and resistance R 50, R51 is formed by connecting, transmission circuit is by emitting antenna L0, aerotron Q11, Q12 and peripheral electric capacity thereof, inductance and resistance are formed by connecting, countdown circuit is by amplifying IC5, the resistance of aerotron Q7 and their peripheries, electric capacity is formed by connecting, and muting control circuit is by aerotron Q16.Resistance R 56 and diode D13 are formed by connecting, sound light alarming circuit is by aerotron Q16, Q17, Q18 and peripheral resistance thereof are formed by connecting, the shock detection circuit is by fine motion sensor HD, amplify IC5 and individually enclose resistance and electric capacity is formed by connecting, the door lock testing circuit is by triggering IC3, silicon control ZD, aerotron Q4 and peripheral resistance thereof are formed by connecting, the engine lock-in circuit is by relay J 2, aerotron Q6 and peripheral resistance R 45 thereof, diode D11, D12 is formed by connecting, unblank to go up lock control circuit by aerotron Q13～Q15, R53～R55 is formed by connecting, wherein, receiving wire L0 connects the base stage of Q1 by capacitor C 2, Q1, Q2 forms cascode one cobasis and connects circuit, the collecting electrode of Q2 connects the collecting electrode of Q3 by capacitor C 7, be connected across the collecting electrode of Q8 after inductance L 3 and capacitor C 8 are in parallel, between the base stage, capacitor C 10 is connected across the collecting electrode of Q3, between the emitter, the emitter of Q3 is by inductance L 4, resistance R 9 ground connection, the emitter of Q3 is by inductance L 4, resistance 10, capacitor C 12, resistance R 11 connects the input end of IC1, the mouth of IC1 connects the input end of IC2 by resistance R 16, the base stage of passing through D4 and resistance R 45 connection Q6 of IC2, an input end that connects IC5 by D5 and R19, the triggering input end that connects IC4 by D8, the base stage that connects Q16 by R56, the base stage that connects Q13 by D2 and R53, the base stage that connects Q14 by R54, Q13, the collecting electrode short circuit of the emitter of Q14 and Q15, Q13, the collecting electrode of Q14 connects the control end of locking a door respectively, control end opens the door, the mouth of IC5 connects the base stage of Q5 by resistance R 40, the collecting electrode of Q16, the collecting electrode of Q5 is by the starting device A of relay J 2 junctor motor-cars, B, fine motion sensor HD connects the input end of IC5 by capacitor C 24, correspondingly IC5 mouth connects the input end of IC4, the mouth of IC4 connects the base stage of Q15, the base stage that connects Q8, IC5 has a mouth to connect the base stage of Q7, the collecting electrode of Q7, the collecting electrode short circuit of Q8 also connects the base stage of Q10 by resistance, the collecting electrode of Q10 connects the coding side of IC6 by IC8, the mouth of IC6 connects the base stage of Q11 by resistance, the collecting electrode of Q11 connects the base stage of Q12 by electric capacity, the collecting electrode of Q12 is by inductance L 10, capacitor C 43 connects emitting antenna, the collecting electrode of Q11 connects the collecting electrode of Q12 by inductance, capacitor C 37 is connected with capacitor C 38 with inductance L 7 backs in parallel and is connected across between the collecting electrode and base stage of Q11, the base stage of Q17 connects the collecting electrode of Q16 by resistance, the mouth that connects ZQ by resistance, the collecting electrode of Q17 connects the base stage of Q19 by resistance, the loudspeaker G of the collecting electrode junctor motor-car of Q19, the base stage of Q18 connects the mouth of IC2 by resistance, the input end of IC5, the collecting electrode of Q18 connects the collecting electrode of Q17, and the input end of ZQ is connected with the mouth of IC2, trigger end connects the mouth of IC3; The base stage of Q4 is just triggering input end D by the negative triggering of resistance R 27 connections input end C, emitter by resistance R 28 connections, the collecting electrode of Q5 is by the indicator 1,2 of relay J 1, diode D15 and D16 junctor motor-car, the collecting electrode of Q6 is by the starting control line of relay J 2 junctor motor-cars, the electric lock of the collecting electrode junctor motor-car of the Q13 control line E that locks, the electric lock of the collecting electrode junctor motor-car of the Q14 control line F that unblanks.

The oscillation frequency of the oscillator of being made up of Q1 and peripheral cell thereof of remote controller is 328MHz, and the oscillation frequency of the regenerative detection circuit of being made up of Q3 and peripheral cell thereof is 285HMz; Corresponding with it, the oscillation frequency of the regenerative detection circuit of being made up of Q3 and peripheral cell thereof of actr is 328MHz, and the oscillation frequency of the oscillator of being made up of Q11 and peripheral cell thereof is 285MHz.

The model of each integrated package is in the remote controller: IC1 adopts VD5026, IC2 to adopt 7503-12, IC3 to adopt 022C, IC4 to adopt VD5013.IC5 adopts adjustable potentiometer; The model of each integrated package is in the actr: IC1 employing 022C, IC2 adopt VD5027, IC4 to adopt CD4013, IC5 to adopt HC324, IC6 to adopt VD5012, IC7 and IC8 employing 7805, IC3 to adopt photosensitive tube

Compared with prior art, the utlity model has following outstanding advantage:

1. simple in structure, volume is little, energy consumption is low, only needs to save No. 5 dry storage batterys with one, the period of service of battery is more than 1 month.

Therefore 2. full mute function is set, and when carrying out antitheft setting, the self-propelled vehicle loud horn can not send sound, can not cause environmental pollution the dead of night at every turn

Below in conjunction with accompanying drawing the utility model is described in detail:

Fig. 1 is the structured flowchart that the utility model is implemented side 1 remote controller.

Fig. 2 is the structured flowchart of the utility model embodiment 1 actr.

Fig. 3 is the electrical schematic diagram of the utility model embodiment 1 remote controller.

Fig. 4 is the electrical schematic diagram of the utility model embodiment 1 actr.

Fig. 1, Fig. 2, Fig. 3 and Fig. 4 form embodiment 1 of the present utility model.

As can be seen from Figure 3, remote controller is made up of following element: ic chip 1～IC5, aerotron Q1～Q5, resistance R 1～R24, capacitor C 1～C22, diode D1～D5, inductance L 2～L8, emitting antenna L1, receiving wire L9, K switch 1～K6, buzzer phone Y and battery E form, the model of coding IC1 is VD5026, the model of decoding IC4 is VD5013, the model of IC2 of boosting is 7503-12, the model that IC3 is amplified in shaping is 022C, the coding pin of IC1 of wherein encoding passes through button switch, stabilivolt connects the mouth of voltage stabilizing IC2, emitting antenna L1 and adjustable capacitor connect into the parallel oscillation device, the two ends of this parallel oscillation device connect the collecting electrode of Q1, the mouth that connects IC2 by inductance, the base stage of Q1 connects the mouth of IC1 by resistance R 6, receiving wire L2 connects the base stage of Q2 by electric capacity, the collecting electrode of Q2 connects the collecting electrode of Q3 by electric capacity, the base stage of Q3 connects collecting electrode by an inductance capacitance and joint group, the collecting electrode of Q3 passes through resistance, inductance L 4 connects the mouth of IC5, the emitter of Q3 is by inductance L 8, resistance eutral grounding, capacitor C 15 is connected across between the emitter and collecting electrode of Q3, the emitter of Q3 is by inductance L 8, resistance is connected the input end of IC3 with electric capacity, the mouth of IC3 connects the input end of decoding IC4 by resistance, the mouth of IC4 connects the base stage of Q4 by resistance, the collecting electrode of Q4 connects the base stage of Q5, and the collecting electrode of Q5 connects acoustical generator Y, emitter connects the mouth of IC5;

As can be seen from Figure 4, actr is made up of following element: IC1, photosensitive coupling IC3 are amplified in receiving wire L0, emitting antenna L11, capacitor C 1～C43, inductance L 1～L10, resistance R 1～R60, decoding IC2, coding IC6, shaping.Monostable triggering IC4, amplify IC5, voltage stabilizing IC7 and IC8, aerotron connects Q1～Q19, diode D1～D16, silicon control ZQ, fine motion sensor HD, relay J 1～J2 is formed by connecting, wherein IC1 adopts OO2C, IC2 adopts VD5027, IC3 adopts photosensitive tube, IC4 adopts 4013, IC5 adopts 74HC324, IC6 adopts VD5012, IC7 and IC8 adopt 7805, receiving wire L0 connects the base stage of Q1 by capacitor C 2, Q1, Q2 forms common-emitter common-base and connects circuit, the collecting electrode of Q2 connects the collecting electrode of Q3 by capacitor C 7, be connected across the collecting electrode of Q3 after inductance L 3 and capacitor C 8 are in parallel, between the base stage, capacitor C 10 is connected across the collecting electrode of Q3, between the emitter, the emitter of Q3 is by inductance L 4, resistance R 9 ground connection, the emission of Q3 is by inductance L 4, resistance 10, capacitor C 12, resistance R 11 connects the input end of IC1, the mouth of IC1 passes through the input end that resistance R 16 connects IC2, the base stage of passing through D4 connection Q6 of IC2, an input end that connects IC5 by D5 and R19, the triggering input end that connects IC4 by D8, the base stage that connects Q16 by R56.The base stage that connects Q13 by D2 and R53, the base stage that connects Q14 by R54, Q13, the collecting electrode short circuit of the emitter of Q14 and Q15, Q13, the collecting electrode of Q14 connects the control end of locking a door respectively, control end opens the door, the mouth of IC5 connects the base stage of Q5 by resistance R 40, the collecting electrode of Q16, the collecting electrode of Q5 is by the starting device A of relay J 2 junctor motor-cars, B, fine motion sensor HD connects the input end of IC5 by capacitor C 24, correspondingly IC5 mouth connects the input end of IC4, the mouth of IC4 connects the base stage of Q15, the base stage that connects Q8, IC5 has a mouth to connect the base stage of Q7, the collecting electrode of Q7, the collecting electrode short circuit of Q8 also connects the base stage of Q10 by resistance, the collecting electrode of Q10 connects the coding side of IC6 by IC8, the mouth of IC6 connects the base stage of Q11 by resistance, the collecting electrode of Q11 connects the base stage of Q12 by electric capacity, the collecting electrode of Q12 is by inductance L 10, capacitor C 43 connects emitting antenna, the collecting electrode of Q11 connects the collecting electrode of Q12 by inductance, capacitor C 37 is connected with capacitor C 38 with inductance L 7 backs in parallel and is connected across between the collecting electrode and base stage of Q11, the base stage of Q17 connects the collecting electrode of Q16 by resistance, the mouth that connects ZQ by resistance, the collecting electrode of Q17 connects the base stage of Q19 by resistance, the loudspeaker G of the collecting electrode junctor motor-car of Q19, the base stage of Q18 connects the mouth of IC2 by resistance, the input end of IC5, the collecting electrode of Q18 connects the collecting electrode of Q17, and the input end of ZQ is connected with the mouth of IC2, trigger end connects the mouth of IC3; The base stage of Q4 is just triggering input end D by the negative triggering of resistance R 27 connections input end C, emitter by resistance R 28 connections, the collecting electrode of Q5 is by the indicator 1,2 of relay J 1, diode D15 and D16 junctor motor-car, the collecting electrode of Q6 is by starting control line A, the B of relay J 2 junctor motor-cars, the electric lock of the collecting electrode junctor motor-car of the Q13 control line E that locks, the electric lock of the collecting electrode junctor motor-car of the Q14 control line F that unblanks.

As can be seen from Figure 3, when K5 connected, the vdc of 1.5V boosted to 12V, behind voltage regulation filtering, supply with each circuit power, Q1 and peripheral cell thereof are formed high frequency generator, and its oscillation frequency is 328MHz, and the signal of encode circuit 2 establishments is launched through the emitting antenna L1 of modulation transmitter 3; C8, C9, C9, L5, L6, Q2, R7, R8 forms reception and amplifying circuit 5, Q3 and peripheral capacitor C 13 thereof, C14, C15 and inductance L 7, L8 forms superregenerative detection circuit 6, its oscillation frequency is 285MHz, receive and feedback signal that amplifying circuit 5 is sent actr here through the emitter output of Q3 and through resistance R 13, on the capacitor C 7, resistance R 14 is delivered to the input end of IC3, after amplifying, the IC3 shaping delivers to the input end of decoding IC4, after IC4 affirmation identification is errorless, decode, mouth output positive potential from IC4, make Q4, Q5 conducting simultaneously, make buzzer phone Y acquisition positive potential and send chimes of doom, press K switch 6, chimes of doom stops, and the receiving unit of projector enters wait state.

As can be seen from Figure 4, after high frequency receiving circuit 10 receives the signal that remote controller sends, deliver to by Q1, the high-frequency amplifier circuit 11 that Q2 forms, signal after amplifying is delivered to superregenerative detection circuit 12, the oscillation frequency of superregenerative detection circuit 12 equals the oscillation frequency 328MHz of modulation transmitter 3 in the remote controller, the signal of regenerative detection circuit 12 output sends into that IC1 carries out the shaping amplification judges identification after resistance R 16 is delivered to decoding IC2, confirm to decode after errorless, it is successfully back from D1 or D2 or D3 or D4 output positive potential to decode, and export an instantaneous positive potential is delivered to IC4 through D8 triggering input end, make the IC4 triggering and conducting and make Q8 from 3 seconds positive potential of No. 13 pin output one time-delays, Q10 conducting simultaneously, make IC8 output one positive 5V power supply for IC6 coding usefulness, the collecting electrode of while Q10 is exported positive 6V power supply and is used for Q11 and Q12 vibration emission through L10; IC6 obtains the 5V power supply, and after inside confirmation from the mouth outupt coded signal, this code signal forces the Q11 starting of oscillation through the base stage that R51 delivers to Q11, its oscillation frequency is that 285MHz is identical with the oscillation frequency of the regenerative detection circuit of remote controller, this oscillation frequency signal is delivered to Q12 through C40 and is carried out going out from transmission antennas transmit behind the power gain, discern decoding after remote controller is received, and send and ring, the expression actr has been finished instruction has been set.

As can be seen from Figure 4, when fine motion sensor HD detects small vibration, produce an electric signal, this electric signal is delivered to IC4 after IC5c, IC5d amplify No. 3 pin trigger, trigger when requiring from 5 seconds positive potential of No. 1 pin output one time-delay when meeting,

As can be seen from Figure 4, the C point is the negative input end that triggers, the D point is for just triggering input end, when the C point has negative input or D point that positive input is arranged, the mouth of IC3 is exported a positive potential, silicon control ZQ triggers the power supply conducting because of having, thereby the mouth of ZQ is exported the voltage of a 4.5V, and this voltage is maintained to remote controller and sends and remove just disappearance of instruction.

As can be seen from Figure 4, when ZQ or D7 send positive potential here, the Q6 saturation conduction, relay J 2 actions, the normally closed contact of J2 disconnects, open contact engages, and makes the engine locking of self-propelled vehicle.

As can be seen from Figure 4, when the Q6 conducting, No. 6 input end current potentials of IC5b are by high step-down, this moment, IC5b produced the interval vibration that frequency is 1Hz, the mouth of IC5b is sent one time positive potential every 1 second, make at interval conducting and ending of Q5, J1 adhesive, cut with Q5 and to reset, thereby indicator is constantly glittering with the Q5 conducting.

As can be seen from Figure 4, when the Q6 conducting, IC5a produces vibration at interval, and oscillation frequency is 1Hz, and the mouth of IC5b also is interrupted sends positive potential, makes the continuous conducting of Q7 and Q19 and ends IC6 intermittent code, Q11 and vibration of Q12 interruption and emission.

As can be seen from Figure 4, Q17 and Q19 conducting after ZQ or D7 send positive potential, the collecting electrode output positive supply of Q19, the horn of motor vehicle pronunciation is reported to the police.

As can be seen from Figure 4, after remote controller sent unidirectional alarming anti-theft setting command, No. 13 pin of IC2 were sent positive potential, make the Q16 saturation conduction, and Q17, Q19 and Q5 end, so indicator and loudspeaker all do not have action, realized complete quiet setting.

As can be seen from Figure 4, when setting unidirectional or bidirectional alarming, 13 pin of IC2 or 12 pin output normotopia, Q15, Q13 conducting at this moment, the collecting electrode output pulse signal of Q13 is prepared for locking, after about 3 seconds, Q15 ends because of can not get positive bias, and this moment, Q13 also ended, and the self-propelled vehicle electric lock automatically locks; When pressing the K switch 4 of remote controller, No. 10 pin output positive potentials of IC2, the collecting electrode of Q14 is exported about 3 seconds impulse singla, reaches the purpose of auto-unlocking.

Claims (4)

1. automobile-use wireless remote control bidirectional alarming anti-joyride device comprises remote controller and receptor, it is characterized in that: remote controller and actr all comprise radiating portion and receiving unit, and

A) after remote controller is boosted the direct current (DC) of 1～1.5V by booster circuit (1), divide two-way output, the encode circuit (2) of wherein leading up to connects modulation transmitter (3); Another road is by mu balanced circuit (4), high frequency reception and amplify (5) circuit, regenerative detection circuit (6), shaping amplification circuit (7), decoding circuit (8) connection warning circuit (9);

B) actr passes through high-frequency amplifier circuit (11) by acceptor circuit (10), Armstrong circuit (12), shaping amplification circuit (13) connects the input end of decoding circuit (14), the mouth of decoding circuit (14) divides five the tunnel, the first via connects the input end of encode circuit (16) by time delay circuit (15), the second tunnel the input end by muting control circuit (18) connection encode circuit (16) and sound light alarming circuit (21), Third Road connects the input end of sound light alarming circuit (21) and engine lock-in circuit (22) by shock detection circuit (19), the four tunnel input end by door lock testing circuit (20) connection sound light alarming circuit (21) and engine lock-in circuit (22), the five tunnel connection is unblanked and goes up lock circuit (23) to connect, (16) mouth of encode circuit connects the input end of transmission circuit (17), the mouth of sound light alarming circuit (21) and engine lock-in circuit (22) connects an input end of encode circuit (16) respectively, and the mouth of engine lock-in circuit (22) also connects transmission circuit (17) by countdown circuit (24)

2. automobile-use wireless remote control bidirectional alarming anti-joyride device according to claim 1 is characterized in that:

A) remote controller is formed by connecting by following element: booster circuit (1) is formed by connecting by inductance, filter capacitor and the stabilivolt of K switch 5, boost IC2 and periphery thereof, encode circuit (2) is formed by connecting by coding IC1 and peripheral resistance, electric capacity, diode and button switch K 1～K4 thereof, modulation transmitter (3) is formed by connecting by aerotron Q1, adjustable capacitor, inductance and emitting antenna L1, mu balanced circuit (4) is made up of voltage stabilizing IC5, and high frequency reception and amplifying circuit (5) are by receiving wire L2.Aerotron Q2 and peripheral resistance thereof, electric capacity, inductance is formed by connecting, regenerative detection circuit (6) is by aerotron Q3 and peripheral resistance thereof, electric capacity, inductance is formed by connecting, shaping amplification circuit (7) amplifies IC3 and peripheral resistance thereof by shaping, electric capacity is formed by connecting, decoding circuit (8) is by button switch K 6, decoding IC4 and peripheral resistance thereof, electric capacity is formed by connecting, warning circuit (9) is by aerotron Q4 and Q5, buzzer phone and peripheral resistance thereof, electric capacity is formed by connecting, the coding pin of IC1 of wherein encoding passes through button switch, stabilivolt connects the mouth of voltage stabilizing IC2, emitting antenna L1 and adjustable capacitor connect into the parallel oscillation device, the two ends of this parallel oscillation device connect the collecting electrode of Q1, the mouth that connects IC2 by inductance, the base stage of Q1 connects the mouth of IC1 by resistance R 6, receiving wire L2 connects the base stage of Q2 by electric capacity, the collecting electrode of Q2 connects the collecting electrode of Q3 by electric capacity, the base stage of Q3 connects collecting electrode by an inductance capacitance and joint group, the collecting electrode of Q3 passes through resistance, inductance L 4 connects the mouth of IC5, the emitter of Q3 is by inductance L 8, resistance eutral grounding, capacitor C 15 is connected across between the emitter and collecting electrode of Q3, the emitter of Q3 is by inductance L 8, resistance is connected the input end of IC3 with electric capacity, the mouth of IC3 connects the input end of decoding IC4 by resistance, the mouth of IC4 connects the base stage of Q4 by resistance, the collecting electrode of Q4 connects the base stage of Q5, and the collecting electrode of Q5 connects acoustical generator Y, emitter connects the mouth of IC5;

B) actr is formed by connecting by following element: high frequency receiving circuit (10) is by receiving wire L0, capacitor C 1～C4, inductance L 1～L2 is formed by connecting, high-frequency amplifier circuit (11) is by aerotron Q1, Q2 and peripheral resistance thereof and electric capacity are formed by connecting, superregenerative detection circuit (12) is by aerotron Q3 and peripheral resistance thereof, electric capacity and inductance are formed by connecting, shaping amplification circuit (13) is by shaping IC1 and peripheral resistance thereof, electric capacity is formed by connecting, decoding circuit (14) is by decoding IC2 and peripheral resistance thereof, electric capacity and diode are formed by connecting, time delay circuit (15) is by monostable triggering IC4 and peripheral resistance thereof, electric capacity and diode are formed by connecting, encode circuit (16) is by coding IC6 and resistance R 50, R51 is formed by connecting, transmission circuit (17) is by emitting antenna L0, aerotron Q11, Q12 and peripheral electric capacity thereof, inductance and resistance are formed by connecting, countdown circuit (24) is by the big IC5 of quilt, the resistance of aerotron Q7 and their peripheries, electric capacity is formed by connecting, muting control circuit (18) is by aerotron Q16, resistance R 56 and diode D13 are formed by connecting, sound light alarming circuit (21) is by aerotron Q17, Q18.Q19 and peripheral resistance thereof are formed by connecting, shock detection circuit (19) is by fine motion sensor HD, amplify IC5 and individually enclose resistance and electric capacity is formed by connecting, door lock testing circuit (20) is by triggering IC3, silicon control ZD, aerotron Q4 and peripheral resistance thereof are formed by connecting, engine lock-in circuit (22) is by relay J 2, aerotron Q6 and peripheral resistance R 45 thereof, diode D11, D12 is formed by connecting, unblank to go up lock control circuit (23) by aerotron Q13～Q15, R53～R55 is formed by connecting, wherein, the base stage that receiving wire L0 connects on the Q by capacitor C 2, Q1, Q2 forms common-emitter common-base and connects circuit, the collecting electrode of Q2 connects the collecting electrode of Q3 by capacitor C 7, be connected across the collecting electrode of Q3 after inductance L 3 and capacitor C 8 are in parallel, between the base stage, capacitor C 10 is connected across the collecting electrode of Q3, between the emitter, the emitter of Q3 is by inductance L 4.Resistance R 9 ground connection, the emitter of Q3 is by inductance L 4.Resistance 10, capacitor C 12, resistance R 11 connects the input end of IC1, the mouth of IC1 connects the input end of IC2 by resistance R 16, the base stage of passing through D4 and resistance R 45 connection Q6 of IC2, an input end that connects IC5 by D5 and R19, the triggering input end that connects IC4 by D8, the base stage that connects Q16 by R56, the base stage that connects Q13 by D2 and R53, the base stage that connects Q14 by R54, Q13, the collecting electrode short circuit of the emitter of Q14 and Q15, Q13, the collecting electrode of Q14 connects the control end E that locks a door respectively, control end F opens the door, the mouth of IC5 connects the base stage of Q5 by resistance R 40, the collecting electrode of Q16, the collecting electrode of Q5 is by the starting device of relay J 2 junctor motor-cars, fine motion sensor HD connects the input end of IC5 by capacitor C 24, correspondingly IC5 mouth connects the input end of IC4, the mouth of IC4 connects the base stage of Q15, the base stage that connects Q8, IC5 has a mouth to connect the base stage of Q7, the collecting electrode of Q7, the collecting electrode short circuit of Q8 also connects the base stage of Q10 by resistance, the collecting electrode of Q10 connects the coding side of IC6 by IC8, the mouth of IC6 connects the base stage of Q11 by resistance, the collecting electrode of Q11 connects the base stage of Q12 by electric capacity, the collecting electrode of Q12 is by inductance L 10, capacitor C 43 connects emitting antenna, the collecting electrode of Q11 connects the collecting electrode of Q12 by inductance, connect with capacitor C 38 in capacitor C 37 and inductance L 7 backs in parallel and to be connected across collecting electrode and the base stage of Q11 same, the base stage of Q17 connects the collecting electrode of Q16 by resistance, the mouth that connects ZQ by resistance, the collecting electrode of Q17 connects the base stage of Q19 by resistance, the loudspeaker G of the collecting electrode junctor motor-car of Q19, the base stage of Q18 connects the mouth of IC2 by resistance, the input end of IC5, the collecting electrode of Q18 connects the collecting electrode of Q17, and the input end of ZQ is connected with the mouth of IC2, trigger end connects the mouth of IC3; The base stage of Q4 is just triggering input end D by the negative triggering of resistance R 27 connections input end C, emitter by resistance R 28 connections, the collecting electrode of Q5 is by the indicator 1,2 of relay J 1, diode D15 and D16 junctor motor-car, the collecting electrode of Q6 is by starting control line A, the B of relay J 2 junctor motor-cars, the electric lock of the collecting electrode junctor motor-car of the Q13 control line E that locks, the electric lock of the collecting electrode junctor motor-car of the Q14 control line F that unblanks.

3. automobile-use wireless remote control bidirectional alarming anti-joyride device according to claim 2, it is characterized in that: the oscillation frequency of the oscillator of being made up of Q1 and peripheral cell thereof of remote controller is 328MHz, and the oscillation frequency of the regenerative detection circuit of being made up of Q3 and peripheral cell thereof is 285HMz; Corresponding with it, the oscillation frequency of the regenerative detection circuit of being made up of Q3 and peripheral cell thereof of actr is 328MHz, and the oscillation frequency of the oscillator of being made up of Q11 and peripheral cell thereof is 285MHz.

4. automobile-use wireless remote control bidirectional alarming anti-joyride device according to claim 2, it is characterized in that: the model of each integrated package is in the remote controller: the last employing of IC VD5026, IC2 adopt 7503-12, IC3 to adopt 022C, IC4 to adopt VD5013, IC5 to adopt adjustable potentiometer; The model of each integrated package is in the actr: IC1 employing 022C, IC2 adopt VD5027, IC4 to adopt CD4013, IC5 to adopt HC324, IC6 to adopt VD5012, IC7 and IC8 employing 7805, IC3 to adopt photosensitive tube.

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