CN108364379A - A kind of garage gate inhibition based on ZigBee and signal light control linkage - Google Patents

Abstract

The garage gate inhibition that the present invention relates to a kind of based on ZigBee and signal light control linkage, which is characterized in that it includes vehicle-carrying communication unit, gate inhibition's communication unit and detection unit；The vehicle-carrying communication unit includes vehicle-mounted MCU, and the vehicle-mounted MCU is connected with vehicle power supply and vehicle-mounted ZigBee transceiver modules；Gate inhibition's communication unit includes gate inhibition's ZigBee transceiver modules, and gate inhibition's ZigBee transceiver modules are connected with gate inhibition MCU, and the gate inhibition MCU is connected with gate inhibition's host, and gate inhibition's host is connected with gate inhibition's server；Gate inhibition's host is connected with control motor；The detection unit includes detection MCU, and the detection MCU is connected with power-switching circuit, laser distance detector, detection ZigBee transceiver modules and lighting control circuit, the power-switching circuit and is connected to electric main.

Description

A kind of garage gate inhibition based on ZigBee and signal light control linkage

Technical field

The invention belongs to intelligent linkage control technology fields, and in particular to a kind of garage gate inhibition and light based on ZigBee Control linkage.

Background technology

With being on the increase for private car quantity, garage management difficulty is increasing, the manpower and materials of garage management input It is doubled and redoubled；Garage access control system falls behind, and control of bluetooth access and video identification gate inhibition discrepancy garage need to wait for, or even to vehicle Posture is restricted, makes troubles to car owner；Garage illumination supervision control falls behind, and energy consumption waste is serious, and underground garage manages intelligence It is to be improved degree to be changed；Existing Garage Management System is unable to dynamic monitoring garage interior vehicle and parking space state, and does not have needle Parking stall idle state is monitored.

Light is unable to local dynamic station control inside garage, turns off that part lamps and lanterns local illumination is inadequate, and there are security risks, and It cannot achieve the real-time tracking to vehicle.This is in place of the deficiencies in the prior art.

Therefore, in view of the above-mentioned drawbacks in the prior art, provide design a kind of garage gate inhibition and light based on ZigBee Control linkage；To solve drawbacks described above in the prior art, it is necessary.

Invention content

It is an object of the present invention to which in view of the above-mentioned drawbacks of the prior art, offer design is a kind of based on ZigBee's Garage gate inhibition and signal light control linkage, to solve the above technical problems.

To achieve the above object, the present invention provides following technical scheme：

A kind of garage gate inhibition based on ZigBee and signal light control linkage, which is characterized in that it include vehicle-carrying communication unit, Gate inhibition's communication unit and detection unit；

The vehicle-carrying communication unit includes vehicle-mounted MCU, and the vehicle-mounted MCU is connected with vehicle power supply and vehicle-mounted ZigBee is received Send out module；

Gate inhibition's communication unit includes gate inhibition's ZigBee transceiver modules, and gate inhibition's ZigBee transceiver modules are connected with door Prohibit MCU, the gate inhibition MCU is connected with gate inhibition's host, and gate inhibition's host is connected with gate inhibition's server；The gate inhibition master Machine is connected with control motor；

Lead between the gate inhibition ZigBee transceiver modules of gate inhibition's communication unit and the vehicle-mounted ZigBee transceiver modules of vehicle-carrying communication unit Cross ZigBee wireless communications；

The detection unit include detection MCU, the detection MCU be connected with power-switching circuit, laser distance detector, Detection ZigBee transceiver modules and lighting control circuit, the power-switching circuit are connected to electric main；

Pass through between the detection ZigBee transceiver modules of detection unit and the vehicle-mounted ZigBee transceiver modules of vehicle-carrying communication unit ZigBee wireless communications；The detection ZigBee transceiver modules of detection unit are also received with the gate inhibition ZigBee of gate inhibition's communication unit Pass through ZigBee wireless communications between hair module.

Preferably, the power-switching circuit includes adjustable resistance VAR, the first end of adjustable resistance VAR is connected to The second end of firewire L, adjustable resistance VAR are connected to zero curve N, and the first end of adjustable resistance VAR is connected to electricity by fuse F1 The first end of R1 is hindered, the second end of resistance R1 is connected to rectification circuit；

The rectification circuit includes diode D1, diode D2, diode D3 and diode D4, the cathode of the D1 of diode The cathode of diode D2, the cathode of the anode connection diode D4 of diode D2 are connected, the anode of diode D4 connects diode The anode of D3, the anode of the cathode connection diode D1 of diode D3；

The second end of resistance R1 is connected to the cathode of the anode of diode D1 and diode D3 in rectification circuit, two in rectification circuit The anode of pole pipe D2 and the cathode of diode D4 are connected to zero curve N；The anode of diode D3 and diode D4 in rectification circuit Plus earth；

The cathode of diode D1 connects the first end of resistance R2, the first end of inductance L1 with the cathode of diode D2 in rectification circuit And the positive terminal of polar capacitor C1, the negative pole end ground connection of polar capacitor C1, the second end of resistance R2 are connected to the of inductance L1 Two ends, the second end of inductance L1 are also connected with the positive terminal of polar capacitor C2, the negative pole end ground connection of polar capacitor C2；

The second end of resistance R2 is also connected to the first end of the first end and nonpolar capacitance C3 of resistance R3, the second end of resistance R3 It is connected with the second end of nonpolar capacitance C3, and the second end of resistance R3 is also connected to the first end of resistance R4, resistance R4's Second end is connected to the cathode of diode D5；

The first end of nonpolar capacitance C3 is connected to the first end of transformer T1 primary sides, and the anode of diode D5 is connected to transformation The first end of the second end of device T1 primary sides, transformer T1 secondary sides is connected to the anode of diode D6, transformer T1 secondary sides Second end ground connection, the second end of transformer T1 primary sides and the first end of secondary side are Same Name of Ends, and the cathode of diode D6 connects Connect the positive terminal of the first end and polar capacitor C4 of inductance L2, the negative pole end ground connection of polar capacitor C4；The second end of inductance L2 connects Be connected to the positive terminal of polar capacitor C5, the first end of resistance R5 and resistance R6 first end, negative pole end, the electricity of polar capacitor C5 Hinder the second end of R5 and the second end ground connection of resistance R6；The second end of inductance L2 is also connected to the ends IN of voltage-stablizer LD, voltage stabilizing The OUT terminal of device LD is output end, and the ends GND of voltage-stablizer LD are grounded；

The cathode of diode D5 is connected to the D pins of TNY254P chips, and the S pins of TNY254P chips are grounded, TNY254P cores The BP pins of piece are grounded by nonpolar capacitance C6；

The EN pins of TNY254P chips are connected to photoelectrical coupler OC, and photoelectrical coupler OC includes light emitting diode D7 and photosensitive The collector of triode D8, phototriode D8 are connected to the EN pins of TNY254P chips, and the emitter of phototriode D8 connects Ground,

The anode of light emitting diode D7 is connected to+5V voltages by resistance R7, and the cathode of light emitting diode D7 is connected by resistance R8 + 5V voltages are connected to, the cathode of light emitting diode D7 is connected to the cathode of zener diode D80, the poles S of field-effect tube Q1 and electricity Hinder the first end of R9, the plus earth of zener diode D80, the poles the D ground connection of field-effect tube Q1, the poles S and the poles D of field-effect tube Q1 Between be provided with zener diode D9, the anode of zener diode D9 is connected to the poles S of field-effect tube Q1, zener diode D9's Cathode is connected to the poles D of field-effect tube Q1, and the second end of resistance R9 is connected to the first end of nonpolar capacitance C7, nonpolar capacitance The second end of C7 is grounded by resistance R10；

By resistance R11 connection+5V voltages, the both ends resistance R11 are parallel with resistance R12 for the poles G of field-effect tube Q1.

Preferably, ZigBee transceiver modules include F8913D chips, the SW1 pins of F8913D chips pass through resistance R13 + 3.3V voltages are connected to, the SW1 pins of F8913D chips are also grounded by nonpolar capacitance C8, the SW1 pins of F8913D chips It is also connected to the first end of TEST buttons, the second end ground connection of TEST buttons；

The GND pin of F8913D chips is grounded, and the V3.3 pins of F8913D chips meet+3.3V voltages, the P1.2 of F8913D chips Pin is connected to+3.3V voltages by resistance R14, and the P1.2 pins of F8913D chips are also grounded by nonpolar capacitance C9, The P1.2 pins of F8913D chips are also connected to SRT signal wires, and the TX pins of F8913D chips are connected to RXD leads, F8913D The RX pins of chip are connected to TXD leads.

Preferably, lighting control circuit includes opto-coupler chip MOC3401, the ANODE pins of opto-coupler chip MOC3401 are logical It crosses resistance R15 and is connected to+5V voltages, the CATHODE pins of opto-coupler chip MOC3401 are connected to the collector of triode Q2, and three The emitter of pole pipe Q2 is grounded, and the base stage of triode Q2 is grounded by resistance R16, and the base stage of triode Q2 also passes through resistance R17 The poles S of field-effect tube Q3 are connected to, the poles D of field-effect tube Q3 are connected to+5V voltages, and the poles G of field-effect tube Q3 are connected to RELY_ CON signal wires；Diode D10 is additionally provided between the poles D and the poles S of field-effect tube Q3, the anode of diode D10 connects field-effect The poles S of pipe Q3, the poles D of the cathode connection field-effect tube Q3 of diode D10；

The first end of the MT2 pins connection resistance R18 of opto-coupler chip MOC3401, the second end of resistance R18 are connected to firewire L, electricity The second end of resistance R18 is also connected to the first end of nonpolar capacitance C10 by resistance R20, and the second end of nonpolar capacitance C10 connects It is connected to the zero line of headlamp, the zero line side of headlamp DS is connected to zero curve N；The second end of resistance R18 is also connected to two-way two The second end of pole pipe D11, the second end of the nonpolar capacitance C10 of first end connection of bilateral diode D11, bilateral diode D11 Third end connection opto-coupler chip MOC3401 MT1 pins, the MT1 pins of opto-coupler chip MOC3401 are also connected with resistance R19's First end, the second end of resistance R19 are connected to the first end of bilateral diode D11.

Preferably, the vehicle-mounted MCU, gate inhibition MCU and detection MCU are respectively connected with MCU status monitor circuits, it is described MCU status monitor circuits include IMP706SESA monitoring chips, the VCC pins of IMP706SESA monitoring chips is connected to+ The MR pins of 3.3V voltages, IMP706SESA monitoring chips are connect with WDO pins, and are connected to the first end of RET buttons, The second end of RET buttons is grounded, and the RESET pins of IMP706SESA monitoring chips are connected to the first end of resistance R20, resistance The second end of R20 is connected to the first end of the first end and resistance R21 of nonpolar capacitance C11, and the second termination of resistance R21+ 3.3V voltages, the second end ground connection of nonpolar capacitance C11；The second end of resistance R20 is also connected to RST signal line； The WDI pins of IMP706SESA monitoring chips are connected to vehicle-mounted MCU or gate inhibition MCU or detect the pin of MCU, IMP706SESA prisons The PFI pins and GND pin for controlling chip are grounded.

Preferably, the voltage-stablizer uses LD1117 model voltage-stablizers.

The beneficial effects of the present invention are, when vehicle is close to gate inhibition, by vehicle-carrying communication unit and gate inhibition's communication unit it Between ZigBee interrogation reply systems, obtain the ZigBee unique address of vehicle-carrying communication unit；Gate inhibition's host is looked into according to the addresses ZigBee Ask database and demarcate information of vehicles, and control whether motor carries lock, if having permission vehicle then distribute vehicle according to information of vehicles Position.Since the communication distance of ZigBee will be far longer than Bluetooth communication, vehicle can be realized enters garage without waiting；And without figure It is convenient and efficient there are no vehicle body need to be adjusted as identification equipment.

According to parking stall position, gate inhibition's Framework computing goes out the path that an entrance leads to purpose parking stall, is selected according to path Select it includes all addresses ZigBee, and send and lighted in order to ZigBee-network with the light of address above mentioned, own Parking stall, lane detection unit can all receive mentioned order, and target ZigBee lights the lamps and lanterns of its control after obtaining order, and sets Delay.

Parking stall, lane detection unit detect parking space information, and upload to gate inhibition's host, Men Jinzhu by ZigBee-network Machine updates parking space information into database；Another aspect parking stall, lane detection unit can judge vehicle according to the variation of ranging Direction of advance, and gate inhibition's host is uploaded, the latter lights the light on path in advance.In addition, design principle of the present invention is reliable, knot Structure is simple, has very extensive application prospect.

It can be seen that compared with prior art, the present invention with substantive distinguishing features outstanding and significantly improving, implementation Advantageous effect be also obvious.

Description of the drawings

Fig. 1 is the control principle of a kind of garage gate inhibition and signal light control linkage based on ZigBee provided by the invention Figure.

Fig. 2 is the circuit diagram of power-switching circuit in Fig. 1.

Fig. 3 is the circuit diagram of ZigBee transceiver modules in Fig. 1.

Fig. 4 is the circuit diagram of lighting control circuit in Fig. 1.

Fig. 5 is the circuit diagram of MCU status monitor circuits in Fig. 1.

Wherein, 1- vehicle-carrying communications unit, 2- gate inhibition's communication unit, 3- detection units, the vehicle-mounted MCU of 1.1-, 1.2- vehicle mounted electrics Source, the vehicle-mounted ZigBee transceiver modules of 1.3-, 2.1- gate inhibition's ZigBee transceiver modules, 2.2- gate inhibition MCU, 2.3- gate inhibition's host, 2.4- gate inhibition's server, 2.5- control motors, 3.1- detection MCU, 3.2- power-switching circuits, 3.3- laser distance detectors, 3.4- detects ZigBee transceiver modules, 3.5- lighting control circuits, 3.6- electric mains, 4-MCU monitoring circuits.

Specific implementation mode

The present invention will be described in detail below in conjunction with the accompanying drawings and by specific embodiment, and following embodiment is to the present invention Explanation, and the invention is not limited in following implementation.

As shown in Fig. 1 to 5, a kind of garage gate inhibition based on ZigBee provided by the invention and signal light control linkage, It is characterized in that, it includes vehicle-carrying communication unit 1, gate inhibition's communication unit 2 and detection unit 3；

The vehicle-carrying communication unit 1 includes vehicle-mounted MCU1.1, and the vehicle-mounted MCU1.1 is connected with vehicle power supply 1.2 and vehicle Carry ZigBee transceiver modules 1.3；

Gate inhibition's communication unit 2 includes gate inhibition ZigBee transceiver modules 2.1, the gate inhibition ZigBee transceiver modules 2.1 It is connected with gate inhibition MCU2.2, the gate inhibition MCU2.2 is connected with gate inhibition's host 2.3, and gate inhibition's host 2.3 is connected with door Prohibit server 2.4；Gate inhibition's host 2.3 is connected with control motor 2.5；

The gate inhibition ZigBee transceiver modules 2.1 of gate inhibition's communication unit 2 and the vehicle-mounted ZigBee transceiver modules of vehicle-carrying communication unit 1 Pass through ZigBee wireless communications between 1.3；

The detection unit 3 includes that detection MCU3.1, the detection MCU3.1 are connected with power-switching circuit 3.2, laser Range finder 3.3, detection ZigBee transceiver modules 3.4 and lighting control circuit 3.5, the power-switching circuit 3.2 It is connected to electric main 3.6；

The detection ZigBee transceiver modules 3.4 of detection unit 3 and the vehicle-mounted ZigBee transceiver modules 1.3 of vehicle-carrying communication unit 1 it Between pass through ZigBee wireless communications；The detection ZigBee transceiver modules 3.4 of detection unit 3 also with gate inhibition's communication unit 2 Pass through ZigBee wireless communications between gate inhibition ZigBee transceiver modules 2.1.

In the present embodiment, the power-switching circuit 3.2 includes adjustable resistance VAR, and the first end of adjustable resistance VAR connects It is connected to firewire L, the second end of adjustable resistance VAR is connected to zero curve N, and the first end of adjustable resistance VAR is connected by fuse F1 Second end to the first end of resistance R1, resistance R1 is connected to rectification circuit；

The rectification circuit includes diode D1, diode D2, diode D3 and diode D4, the cathode of the D1 of diode The cathode of diode D2, the cathode of the anode connection diode D4 of diode D2 are connected, the anode of diode D4 connects diode The anode of D3, the anode of the cathode connection diode D1 of diode D3；

The second end of resistance R1 is connected to the cathode of the anode of diode D1 and diode D3 in rectification circuit, two in rectification circuit The anode of pole pipe D2 and the cathode of diode D4 are connected to zero curve N；The anode of diode D3 and diode D4 in rectification circuit Plus earth；

The cathode of diode D1 connects the first end of resistance R2, the first end of inductance L1 with the cathode of diode D2 in rectification circuit And the positive terminal of polar capacitor C1, the negative pole end ground connection of polar capacitor C1, the second end of resistance R2 are connected to the of inductance L1 Two ends, the second end of inductance L1 are also connected with the positive terminal of polar capacitor C2, the negative pole end ground connection of polar capacitor C2；

The second end of resistance R2 is also connected to the first end of the first end and nonpolar capacitance C3 of resistance R3, the second end of resistance R3 It is connected with the second end of nonpolar capacitance C3, and the second end of resistance R3 is also connected to the first end of resistance R4, resistance R4's Second end is connected to the cathode of diode D5；

The first end of nonpolar capacitance C3 is connected to the first end of transformer T1 primary sides, and the anode of diode D5 is connected to transformation The first end of the second end of device T1 primary sides, transformer T1 secondary sides is connected to the anode of diode D6, transformer T1 secondary sides Second end ground connection, the second end of transformer T1 primary sides and the first end of secondary side are Same Name of Ends, and the cathode of diode D6 connects Connect the positive terminal of the first end and polar capacitor C4 of inductance L2, the negative pole end ground connection of polar capacitor C4；The second end of inductance L2 connects Be connected to the positive terminal of polar capacitor C5, the first end of resistance R5 and resistance R6 first end, negative pole end, the electricity of polar capacitor C5 Hinder the second end of R5 and the second end ground connection of resistance R6；The second end of inductance L2 is also connected to the ends IN of voltage-stablizer LD, voltage stabilizing The OUT terminal of device LD is output end, and the ends GND of voltage-stablizer LD are grounded；

The cathode of diode D5 is connected to the D pins of TNY254P chips, and the S pins of TNY254P chips are grounded, TNY254P cores The BP pins of piece are grounded by nonpolar capacitance C6；

The EN pins of TNY254P chips are connected to photoelectrical coupler OC, and photoelectrical coupler OC includes light emitting diode D7 and photosensitive The collector of triode D8, phototriode D8 are connected to the EN pins of TNY254P chips, and the emitter of phototriode D8 connects Ground,

The anode of light emitting diode D7 is connected to+5V voltages by resistance R7, and the cathode of light emitting diode D7 is connected by resistance R8 + 5V voltages are connected to, the cathode of light emitting diode D7 is connected to the cathode of zener diode D80, the poles S of field-effect tube Q1 and electricity Hinder the first end of R9, the plus earth of zener diode D80, the poles the D ground connection of field-effect tube Q1, the poles S and the poles D of field-effect tube Q1 Between be provided with zener diode D9, the anode of zener diode D9 is connected to the poles S of field-effect tube Q1, zener diode D9's Cathode is connected to the poles D of field-effect tube Q1, and the second end of resistance R9 is connected to the first end of nonpolar capacitance C7, nonpolar capacitance The second end of C7 is grounded by resistance R10；

By resistance R11 connection+5V voltages, the both ends resistance R11 are parallel with resistance R12 for the poles G of field-effect tube Q1.

In the present embodiment, ZigBee transceiver modules include F8913D chips, and the SW1 pins of F8913D chips pass through resistance R13 is connected to+3.3V voltages, and the SW1 pins of F8913D chips are also grounded by nonpolar capacitance C8, the SW1 of F8913D chips Pin is also connected to the first end of TEST buttons, the second end ground connection of TEST buttons；

The GND pin of F8913D chips is grounded, and the V3.3 pins of F8913D chips meet+3.3V voltages, the P1.2 of F8913D chips Pin is connected to+3.3V voltages by resistance R14, and the P1.2 pins of F8913D chips are also grounded by nonpolar capacitance C9, The P1.2 pins of F8913D chips are also connected to SRT signal wires, and the TX pins of F8913D chips are connected to RXD leads, F8913D The RX pins of chip are connected to TXD leads.

In the present embodiment, lighting control circuit 3.5 includes opto-coupler chip MOC3401, the ANODE of opto-coupler chip MOC3401 Pin is connected to+5V voltages by resistance R15, and the CATHODE pins of opto-coupler chip MOC3401 are connected to the current collection of triode Q2 Pole, the emitter ground connection of triode Q2, the base stage of triode Q2 are grounded by resistance R16, and the base stage of triode Q2 also passes through electricity Resistance R17 is connected to the poles S of field-effect tube Q3, and the poles D of field-effect tube Q3 are connected to+5V voltages, and the poles G of field-effect tube Q3 are connected to RELY_CON signal wires；Diode D10, the anode connection of diode D10 are additionally provided between the poles D and the poles S of field-effect tube Q3 The poles S of field-effect tube Q3, the poles D of the cathode connection field-effect tube Q3 of diode D10；

The first end of the MT2 pins connection resistance R18 of opto-coupler chip MOC3401, the second end of resistance R18 are connected to firewire L, electricity The second end of resistance R18 is also connected to the first end of nonpolar capacitance C10 by resistance R20, and the second end of nonpolar capacitance C10 connects It is connected to the zero line of headlamp, the zero line side of headlamp is connected to zero curve N；The second end of resistance R18 is also connected to two-way two pole The second end of pipe D11, the second end of the nonpolar capacitance C10 of first end connection of bilateral diode D11, bilateral diode D11's Third end connects the MT1 pins of opto-coupler chip MOC3401, and the MT1 pins of opto-coupler chip MOC3401 are also connected with the of resistance R19 One end, the second end of resistance R19 are connected to the first end of bilateral diode D11.

In the present embodiment, the vehicle-mounted MCU, gate inhibition MCU and detection MCU are respectively connected with MCU status monitor circuits 4, The MCU status monitor circuits 4 include IMP706SESA monitoring chips, and the VCC pin of IMP706SESA monitoring chips connects MR pins to+3.3V voltages, IMP706SESA monitoring chips are connect with WDO pins, and are connected to the first of RET buttons End, the second end ground connection of RET buttons, the RESET pins of IMP706SESA monitoring chips are connected to the first end of resistance R20, electricity Resistance R20 second end be connected to nonpolar capacitance C11 first end and resistance R21 first end, resistance R21 second termination+ 3.3V voltages, the second end ground connection of nonpolar capacitance C11；The second end of resistance R20 is also connected to RST signal line； The WDI pins of IMP706SESA monitoring chips are connected to vehicle-mounted MCU or gate inhibition MCU or detect the pin of MCU, IMP706SESA prisons The PFI pins and GND pin for controlling chip are grounded.

In the present embodiment, the voltage-stablizer uses LD1117 model voltage-stablizers.

Disclosed above is only the preferred embodiment of the present invention, but the present invention is not limited to this, any this field What technical staff can think does not have a creative variation, and without departing from the principles of the present invention made by several improvement and Retouching, should all be within the scope of the present invention.

Claims (6)

1. a kind of garage gate inhibition based on ZigBee and signal light control linkage, which is characterized in that it includes vehicle-carrying communication list Member（1）, gate inhibition's communication unit（2）And detection unit（3）；

The vehicle-carrying communication unit（1）Including vehicle-mounted MCU（1.1）, the vehicle-mounted MCU（1.1）It is connected with vehicle power supply （1.2）And vehicle-mounted ZigBee transceiver modules（1.3）；

Gate inhibition's communication unit（2）Including gate inhibition's ZigBee transceiver modules（2.1）, gate inhibition's ZigBee transceiver modules （2.1）It is connected with gate inhibition MCU（2.2）, the gate inhibition MCU（2.2）It is connected with gate inhibition's host（2.3）, gate inhibition's host （2.3）It is connected with gate inhibition's server（2.4）；Gate inhibition's host（2.3）It is connected with control motor（2.5）；

Gate inhibition's communication unit（2）Gate inhibition's ZigBee transceiver modules（2.1）With vehicle-carrying communication unit（1）Vehicle-mounted ZigBee transmitting-receiving Module（1.3）Between pass through ZigBee wireless communications；

The detection unit（3）Including detecting MCU（3.1）, the detection MCU（3.1）It is connected with power-switching circuit （3.2）, laser distance detector（3.3）, detection ZigBee transceiver modules（3.4）And lighting control circuit（3.5）, described Power-switching circuit（3.2）It is connected to electric main（3.6）；

Detection unit（3）Detection ZigBee transceiver modules（3.4）With vehicle-carrying communication unit（1）Vehicle-mounted ZigBee transceiver modules （1.3）Between pass through ZigBee wireless communications；Detection unit（3）Detection ZigBee transceiver modules（3.4）Also with gate inhibition Communication unit（2）Gate inhibition's ZigBee transceiver modules（2.1）Between pass through ZigBee wireless communications.

2. a kind of garage gate inhibition based on ZigBee according to claim 1 and signal light control linkage, feature exist In the power-switching circuit（3.2）Including adjustable resistance VAR, the first end of adjustable resistance VAR is connected to firewire L, adjustable The second end of resistance VAR is connected to zero curve N, and the first end of adjustable resistance VAR is connected to the first of resistance R1 by fuse F1 End, the second end of resistance R1 are connected to rectification circuit；

The rectification circuit includes diode D1, diode D2, diode D3 and diode D4, the cathode of the D1 of diode The cathode of diode D2, the cathode of the anode connection diode D4 of diode D2 are connected, the anode of diode D4 connects diode The anode of D3, the anode of the cathode connection diode D1 of diode D3；

The second end of resistance R1 is connected to the cathode of the anode of diode D1 and diode D3 in rectification circuit, two in rectification circuit The anode of pole pipe D2 and the cathode of diode D4 are connected to zero curve N；The anode of diode D3 and diode D4 in rectification circuit Plus earth；

The cathode of diode D1 connects the first end of resistance R2, the first end of inductance L1 with the cathode of diode D2 in rectification circuit And the positive terminal of polar capacitor C1, the negative pole end ground connection of polar capacitor C1, the second end of resistance R2 are connected to the of inductance L1 Two ends, the second end of inductance L1 are also connected with the positive terminal of polar capacitor C2, the negative pole end ground connection of polar capacitor C2；

The second end of resistance R2 is also connected to the first end of the first end and nonpolar capacitance C3 of resistance R3, the second end of resistance R3 It is connected with the second end of nonpolar capacitance C3, and the second end of resistance R3 is also connected to the first end of resistance R4, resistance R4's Second end is connected to the cathode of diode D5；

The first end of nonpolar capacitance C3 is connected to the first end of transformer T1 primary sides, and the anode of diode D5 is connected to transformation The first end of the second end of device T1 primary sides, transformer T1 secondary sides is connected to the anode of diode D6, transformer T1 secondary sides Second end ground connection, the second end of transformer T1 primary sides and the first end of secondary side are Same Name of Ends, and the cathode of diode D6 connects Connect the positive terminal of the first end and polar capacitor C4 of inductance L2, the negative pole end ground connection of polar capacitor C4；The second end of inductance L2 connects Be connected to the positive terminal of polar capacitor C5, the first end of resistance R5 and resistance R6 first end, negative pole end, the electricity of polar capacitor C5 Hinder the second end of R5 and the second end ground connection of resistance R6；The second end of inductance L2 is also connected to the ends IN of voltage-stablizer LD, voltage stabilizing The OUT terminal of device LD is output end, and the ends GND of voltage-stablizer LD are grounded；

The cathode of diode D5 is connected to the D pins of TNY254P chips, and the S pins of TNY254P chips are grounded, TNY254P cores The BP pins of piece are grounded by nonpolar capacitance C6；

The EN pins of TNY254P chips are connected to photoelectrical coupler OC, and photoelectrical coupler OC includes light emitting diode D7 and photosensitive The collector of triode D8, phototriode D8 are connected to the EN pins of TNY254P chips, and the emitter of phototriode D8 connects Ground,

The anode of light emitting diode D7 is connected to+5V voltages by resistance R7, and the cathode of light emitting diode D7 is connected by resistance R8 + 5V voltages are connected to, the cathode of light emitting diode D7 is connected to the cathode of zener diode D80, the poles S of field-effect tube Q1 and electricity Hinder the first end of R9, the plus earth of zener diode D80, the poles the D ground connection of field-effect tube Q1, the poles S and the poles D of field-effect tube Q1 Between be provided with zener diode D9, the anode of zener diode D9 is connected to the poles S of field-effect tube Q1, zener diode D9's Cathode is connected to the poles D of field-effect tube Q1, and the second end of resistance R9 is connected to the first end of nonpolar capacitance C7, nonpolar capacitance The second end of C7 is grounded by resistance R10；

By resistance R11 connection+5V voltages, the both ends resistance R11 are parallel with resistance R12 for the poles G of field-effect tube Q1.

3. a kind of garage gate inhibition based on ZigBee according to claim 1 or 2 and signal light control linkage, feature It is, ZigBee transceiver modules include F8913D chips, and the SW1 pins of F8913D chips are connected to+3.3V electricity by resistance R13 The SW1 pins of pressure, F8913D chips are also grounded by nonpolar capacitance C8, and the SW1 pins of F8913D chips are also connected to TEST The first end of button, the second end ground connection of TEST buttons；

The GND pin of F8913D chips is grounded, and the V3.3 pins of F8913D chips meet+3.3V voltages, the P1.2 of F8913D chips Pin is connected to+3.3V voltages by resistance R14, and the P1.2 pins of F8913D chips are also grounded by nonpolar capacitance C9, The P1.2 pins of F8913D chips are also connected to SRT signal wires, and the TX pins of F8913D chips are connected to RXD leads, F8913D The RX pins of chip are connected to TXD leads.

4. a kind of garage gate inhibition based on ZigBee according to claim 3 and signal light control linkage, feature exist In lighting control circuit（3.5）Including opto-coupler chip MOC3401, the ANODE pins of opto-coupler chip MOC3401 pass through resistance R15 + 5V voltages are connected to, the CATHODE pins of opto-coupler chip MOC3401 are connected to the collector of triode Q2, the hair of triode Q2 The base stage of emitter grounding, triode Q2 is grounded by resistance R16, and the base stage of triode Q2 is also shown up effect by resistance R17 connections Should pipe Q3 the poles S, the poles D of field-effect tube Q3 are connected to+5V voltages, and the poles G of field-effect tube Q3 are connected to RELY_CON signal wires； Diode D10 is additionally provided between the poles D and the poles S of field-effect tube Q3, the anode of diode D10 connects the poles S of field-effect tube Q3, The poles D of the cathode connection field-effect tube Q3 of diode D10；

The first end of the MT2 pins connection resistance R18 of opto-coupler chip MOC3401, the second end of resistance R18 are connected to firewire L, electricity The second end of resistance R18 is also connected to the first end of nonpolar capacitance C10 by resistance R20, and the second end of nonpolar capacitance C10 connects It is connected to the zero line of headlamp, the zero line side of headlamp is connected to zero curve N；The second end of resistance R18 is also connected to two-way two pole The second end of pipe D11, the second end of the nonpolar capacitance C10 of first end connection of bilateral diode D11, bilateral diode D11's Third end connects the MT1 pins of opto-coupler chip MOC3401, and the MT1 pins of opto-coupler chip MOC3401 are also connected with the of resistance R19 One end, the second end of resistance R19 are connected to the first end of bilateral diode D11.

5. a kind of garage gate inhibition based on ZigBee according to claim 4 and signal light control linkage, feature exist In the vehicle-mounted MCU, gate inhibition MCU and detection MCU are respectively connected with MCU status monitor circuits（4）, the described MCU states prison Control circuit（4）Including IMP706SESA monitoring chips, the VCC pin of IMP706SESA monitoring chips is connected to+3.3V voltages, The MR pins of IMP706SESA monitoring chips are connect with WDO pins, and are connected to the first end of RET buttons, and the of RET buttons Two ends are grounded, and the RESET pins of IMP706SESA monitoring chips are connected to the first end of resistance R20, and the second end of resistance R20 connects It is connected to the first end of the first end and resistance R21 of nonpolar capacitance C11, the second termination+3.3V voltages of resistance R21, nonpolarity The second end of capacitance C11 is grounded；The second end of resistance R20 is also connected to RST signal line；The WDI of IMP706SESA monitoring chips Pin is connected to vehicle-mounted MCU or gate inhibition MCU or detects the pin of MCU, and the PFI pins and GND of IMP706SESA monitoring chips draw Foot is grounded.

6. a kind of garage gate inhibition based on ZigBee according to claim 2 and signal light control linkage, feature exist In the voltage-stablizer uses LD1117 model voltage-stablizers.