CN106780778A - A kind of railway safety check security-protection management system - Google Patents

Abstract

The invention discloses a kind of railway safety check security-protection management system, including face acquiring and identifying module, signal processing module, controller, memory module and alarm module, the controller connects alarm module, memory module and signal processing module respectively, and signal processing module is also connected with face recognition module.The present invention is not only improved service quality using the technological means of automation, improves verification efficiency, accelerates the passage rate of passenger, reduces the artificial preparation at station, reduces wage expenditure.

Description

A kind of railway safety check security-protection management system

Technical field

The present invention relates to a kind of management system, specifically a kind of railway safety check security-protection management system.

Background technology

After internet or booking hall have purchased ticket in advance, passenger is according to waiting that station ENTRANCE shows for passenger Information holds ticket and identity document enters the station；Staff checks ticket identity information, has by railway ticketses real name verification system Effect identity document and the uniformity of passenger, completely the same adds a cover proof seal by staff in ticket front；Passenger receives peace Disclosed according to guiding after inspection and enter the corresponding area that waits.

During railroader's system of real name ticket checking, can only judge whether current passenger is ticket-buyer's sheet by visual sense People, and cannot confirm current passenger whether Ministry of Public Security suspect, operating efficiency and quality and its low, it is impossible to real-time blocking is sudden and violent Probably the special population such as molecule, fugitive suspicion, very big hidden danger is brought to safety of railway traffic.

The content of the invention

It is an object of the invention to provide a kind of railway safety check security-protection management system, to solve to be proposed in above-mentioned background technology Problem.

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

A kind of railway safety check security-protection management system, including face acquiring and identifying module, signal processing module, controller, storage mould Block and alarm module, the controller connect alarm module, memory module and signal processing module respectively, and signal processing module is also Connection face recognition module；The alarm module also includes double-audible frequency circuit, and the double-audible frequency circuit includes audio Decoder IC1, resistance R25 and resistance R26, the signal processing module include single-chip microcomputer IC2, electric capacity C13 and electric capacity C14, institute Stating memory module includes storage chip IC3, and the polarity transformation circuitses include rectifier bridge Q and triode V1；The audio coding Device IC1 pins IN+ connects resistance R2 and resistance R4 respectively, and resistance R2 other ends connection electric capacity C2, the electric capacity C2 other ends connect respectively Input signal L1, input signal L4 and rectifier bridge Q pin 1 are connect, the tone decoder IC1 pins IN- connects resistance R3 respectively With resistance R5, the resistance R3 other ends connect resistance R1 respectively and tone decoder IC1 pin GS, resistance the R1 other end connect electric capacity C1, electric capacity the C1 other end connect input signal L2, input signal L3 and rectifier bridge Q pin 3, the resistance R4 other ends point respectively Not Lian Jie the resistance R5 other ends and tone decoder IC1 pins YREF, the tone decoder IC1 pins RT/GT connects respectively Resistance R6 and electric capacity C3, resistance the R6 other end connect tone decoder IC1 pin EST, tone decoder IC1 pins Vss connections Electric capacity C3 is simultaneously grounded, and tone decoder IC1 pins Vdd connects 5V positive sources and resistance R31 respectively, and the resistance R31 other ends connect Triode V4 colelctor electrodes are connect, triode V4 base stages connect earth resistance R32, ground capacity C12 and resistance R30, resistance R30 respectively The other end connects tone decoder IC1 pins TOE and tone decoder IC1 pin Pins NC, the triode V4 transmittings respectively Pole is grounded, and the rectifier bridge Q pin 4 connects resistance R8, electric capacity C4 and resistance R34 respectively, and the resistance R34 other end connects electricity respectively Resistance R33 and triode V5 base stages, triode V5 colelctor electrodes connect resistance R35 and triode V6 base stages, the resistance R35 other ends respectively Connection 5V positive sources, the triode V5 emitter stages and triode V6 colelctor electrodes are grounded, and the connection of triode V6 emitter stages is single Piece machine IC2 pins RC5, the resistance R33 other ends connect rectifier bridge Q pin 2, resistance R9 and triode V2 emitter stages respectively, Triode V2 colelctor electrodes distinguish connecting triode V1 colelctor electrodes and resistance R11, and it is another that triode V1 emitter stages connect resistance R8 respectively One end and resistance R7, the resistance R7 other ends connection electric capacity C4 other ends, the triode V1 base stages connect resistance R12, electricity respectively Resistance R14, resistance R15 and ground capacity C6, resistance R14 other ends connection electric capacity C5, electric capacity C5 other ends connection earth resistance R13, the resistance R15 other ends connect ground capacity C7 and electric capacity C8 respectively, and the electric capacity C8 other ends connect ground capacity respectively C10 and resistance R16, resistance the R16 other end connect resistance R17 and resistance R29 respectively, and the resistance R29 other ends connect audio respectively Decoder pin Q4 and single-chip microcomputer IC2 pins RA3, the triode V2 base stages connect the resistance R9 other ends and resistance R10 respectively, Resistance R10 other end connecting triode V3 colelctor electrodes, triode V3 grounded emitters, triode V3 base stages connection resistance R42, electricity Resistance R42 other end connection single-chip microcomputer IC2 pins RC2, the resistance R17 other ends connect resistance R18 and resistance R28 respectively, electricity The resistance R28 other ends connect tone decoder IC1 pins Q3 and single-chip microcomputer IC2 pins RA2, the resistance R18 other ends point respectively Not Lian Jie resistance R19 and resistance R27, the resistance R27 other ends connect tone decoder IC1 pins Q2 and single-chip microcomputer IC1 and draw respectively Pin RA1, the resistance R19 other ends connect resistance R20 and resistance R26 respectively, and the resistance R26 other ends connect audio coding respectively Device IC1 pins Q1 and single-chip microcomputer IC1 pins RA0, the resistance R20 other ends connect resistance R21 and resistance R25, resistance respectively The R25 other ends connect single-chip microcomputer IC2 pins RC1, and the resistance R21 other ends connect earth resistance R22 and resistance R24 respectively, The resistance R24 other ends connection single-chip microcomputer IC2 pins RC4, the tone decoder IC1 pins INH connect electric capacity C11, electric capacity C11 The other end connects electric capacity C13, crystal oscillator Y and single-chip microcomputer IC2 pin OSC2 respectively, and single-chip microcomputer IC2 pins OSC1 connects crystal oscillator Y respectively The other end and electric capacity C14, the electric capacity C14 other ends connection electric capacity C13 other ends are simultaneously grounded, the single-chip microcomputer IC2 pins Vdd difference Connection 5V positive sources and resistance R36, the resistance R36 other ends connect single-chip microcomputer IC2 pins VPP and ground capacity C15, institute respectively State single-chip microcomputer IC2 pins RB4 connection resistance R23, resistance R23 other ends connection ground connection light emitting transistor D5 positive poles, the monolithic Machine IC2 pins RC3 connects earth resistance R38 and resistance R37, resistance R37 other end connecting triode V7 base stages, triode respectively V7 grounded emitters, triode V7 colelctor electrodes connection buzzer B1, buzzer B1 other ends connection 5V positive sources, the monolithic Machine IC2 pins RB7 connects resistance R39 and resistance R40, resistance R40 other ends connection ground connection light emitting transistor D6 positive poles, institute respectively State the resistance R39 other ends and connect earth resistance R41 and triode V8 base stages, triode V8 grounded emitters, triode V8 respectively Colelctor electrode connects buzzer B2, buzzer B2 other ends connection 9V positive sources, the single-chip microcomputer IC2 pins RB6 connections storage The pin SCL of chip IC 3, single-chip microcomputer IC2 pins RB0 connect storage chip IC3 pin SDA, single-chip microcomputer IC2 pins N/C and monolithic Machine IC2 pins Vss is grounded, and the storage chip IC3 pins Vcc connects 5V positive sources, storage chip IC3 pins A0 ~ A4 It is grounded with storage chip IC3 pins Vss.

As further scheme of the invention：The tone decoder IC1 models MT8870, the single-chip microcomputer IC2 Model PIC16C57, the storage chip IC3 models 24C02.

Compared with prior art, the beneficial effects of the invention are as follows：The present invention is not only improved using the technological means of automation Service quality, improves verification efficiency, accelerates the passage rate of passenger, reduces the artificial preparation at station, reduces wage branch Go out.

Brief description of the drawings

Fig. 1 is the structural representation of railway safety check security-protection management system.

Fig. 2 is the partial circuit diagram of railway safety check security-protection management system.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described.

Fig. 1 is referred to, in the embodiment of the present invention, a kind of railway safety check security-protection management system, including face collection identification mould Block, signal processing module, controller, memory module and alarm module, the controller connect alarm module, memory module respectively And signal processing module, signal processing module is also connected with face recognition module；The alarm module also includes double-audible frequency electricity Road, the double-audible frequency circuit includes tone decoder IC1, resistance R25 and resistance R26, and the signal processing module includes Single-chip microcomputer IC2, electric capacity C13 and electric capacity C14, the memory module include storage chip IC3, and the polarity transformation circuitses include whole Stream bridge Q and triode V1；The tone decoder IC1 pins IN+ connects resistance R2 and resistance R4 respectively, and the resistance R2 other ends connect Electric capacity C2 is met, the electric capacity C2 other ends connect input signal L1, input signal L4 and rectifier bridge Q pin 1, the audio coding respectively Device IC1 pins IN- connects resistance R3 and resistance R5 respectively, and the resistance R3 other ends connect resistance R1 and tone decoder IC1 respectively Pin GS, resistance the R1 other end connect electric capacity C1, and the electric capacity C1 other ends connect input signal L2, input signal L3 and rectification respectively Bridge Q pin 3, the resistance R4 other ends connect the resistance R5 other ends and tone decoder IC1 pins YREF, the audio respectively Decoder IC1 pins RT/GT connects resistance R6 and electric capacity C3, resistance R6 other ends connection tone decoder IC1 pins respectively EST, tone decoder IC1 pins Vss connect electric capacity C3 and are grounded, and tone decoder IC1 pins Vdd is connecting 5V power supplys just respectively Pole and resistance R31, resistance R31 other end connecting triode V4 colelctor electrodes, triode V4 base stages connect respectively earth resistance R32, Ground capacity C12 and resistance R30, resistance the R30 other end connect tone decoder IC1 pins TOE and tone decoder IC1 respectively Pin Pin NC, the triode V4 grounded emitters, the rectifier bridge Q pin 4 connects resistance R8, electric capacity C4 and resistance respectively R34, the resistance R34 other end connects resistance R33 and triode V5 base stages respectively, and triode V5 colelctor electrodes connect resistance R35 respectively With triode V6 base stages, resistance R35 other ends connection 5V positive sources, the triode V5 emitter stages and triode V6 colelctor electrodes It is grounded, triode V6 emitter stages connection single-chip microcomputer IC2 pins RC5, the resistance R33 other ends connect rectifier bridge Q and draw respectively Pin 2, resistance R9 and triode V2 emitter stages, triode V2 colelctor electrodes difference connecting triode V1 colelctor electrodes and resistance R11, three poles Pipe V1 emitter stages connect the resistance R8 other ends and resistance R7, the resistance R7 other ends connection electric capacity C4 other ends, three pole respectively Pipe V1 base stages connect resistance R12, resistance R14, resistance R15 and ground capacity C6 respectively, and the resistance R14 other ends connect electric capacity C5, The electric capacity C5 other ends connect earth resistance R13, and the resistance R15 other ends connect ground capacity C7 and electric capacity C8, electric capacity respectively The C8 other ends connect ground capacity C10 and resistance R16 respectively, and the resistance R16 other ends connect resistance R17 and resistance R29 respectively, electricity The resistance R29 other ends connect tone decoder pin Q4 and single-chip microcomputer IC2 pins RA3 respectively, and the triode V2 base stages connect respectively The connecting resistance R9 other ends and resistance R10, resistance R10 other end connecting triode V3 colelctor electrodes, triode V3 grounded emitters, three Pole pipe V3 base stages connect resistance R42, resistance R42 other ends connection single-chip microcomputer IC2 pins RC2, the resistance R17 other ends difference Connection resistance R18 and resistance R28, the resistance R28 other ends connect tone decoder IC1 pins Q3 and single-chip microcomputer IC2 pins respectively RA2, the resistance R18 other ends connect resistance R19 and resistance R27 respectively, and the resistance R27 other ends connect tone decoder respectively IC1 pins Q2 and single-chip microcomputer IC1 pins RA1, the resistance R19 other ends connect resistance R20 and resistance R26, resistance R26 respectively The other end connects tone decoder IC1 pins Q1 and single-chip microcomputer IC1 pins RA0 respectively, and the resistance R20 other ends are connected respectively Resistance R21 and resistance R25, resistance the R25 other end connect single-chip microcomputer IC2 pins RC1, and the resistance R21 other ends are connected respectively Earth resistance R22 and resistance R24, resistance the R24 other end connect single-chip microcomputer IC2 pins RC4, the tone decoder IC1 pins INH connects electric capacity C11, and the electric capacity C11 other ends connect electric capacity C13, crystal oscillator Y and single-chip microcomputer IC2 pin OSC2, single-chip microcomputer respectively IC2 pins OSC1 connects the crystal oscillator Y other ends and electric capacity C14 respectively, and the electric capacity C14 other ends connection electric capacity C13 other ends are simultaneously grounded, The single-chip microcomputer IC2 pins Vdd connects 5V positive sources and resistance R36 respectively, and the resistance R36 other ends connect single-chip microcomputer respectively IC2 pins VPP and ground capacity C15, the single-chip microcomputer IC2 pins RB4 connect resistance R23, resistance R23 other ends connection ground connection Light emitting transistor D5 positive poles, the single-chip microcomputer IC2 pins RC3 connects earth resistance R38 and resistance R37 respectively, and resistance R37 is another End connecting triode V7 base stages, triode V7 grounded emitters, buzzer B1, buzzer B1 are another for the connection of triode V7 colelctor electrodes End connection 5V positive sources, the single-chip microcomputer IC2 pins RB7 connects resistance R39 and resistance R40 respectively, and the resistance R40 other ends connect Ground connection light emitting transistor D6 positive poles, the resistance R39 other ends connect earth resistance R41 and triode V8 base stages, three respectively Pole pipe V8 grounded emitters, triode V8 colelctor electrodes connection buzzer B2, buzzer B2 other ends connection 9V positive sources are described Single-chip microcomputer IC2 pins RB6 connects storage chip IC3 pin SCL, single-chip microcomputer IC2 pins RB0 connection storage chip IC3 pins SDA, single-chip microcomputer IC2 pins N/C and single-chip microcomputer IC2 pins Vss are grounded, and the storage chip IC3 pins Vcc connects 5V power supplys Positive pole, storage chip IC3 pins A0 ~ A4 and storage chip IC3 pins Vss are grounded.The tone decoder IC1 models MT8870, the single-chip microcomputer IC2 models PIC16C57, the storage chip IC3 models 24C02.

Data after identification human face data, are sent into signal processing module, then pass through by the present invention by face acquiring and identifying module Cross controller to compare with the identity information of storage in memory module, if refusing to obey, warning message is exported from alarm module.

It is obvious to a person skilled in the art that the invention is not restricted to the details of above-mentioned one exemplary embodiment, Er Qie In the case of without departing substantially from spirit or essential attributes of the invention, the present invention can be in other specific forms realized.Therefore, no matter From the point of view of which point, embodiment all should be regarded as exemplary, and be nonrestrictive, the scope of the present invention is by appended power Profit requires to be limited rather than described above, it is intended that all in the implication and scope of the equivalency of claim by falling Change is included in the present invention.Any reference in claim should not be considered as the claim involved by limitation.

Moreover, it will be appreciated that although the present specification is described in terms of embodiments, not each implementation method is only wrapped Containing an independent technical scheme, this narrating mode of specification is only that for clarity, those skilled in the art should Specification an as entirety, the technical scheme in each embodiment can also be formed into those skilled in the art through appropriately combined May be appreciated other embodiment.

Claims (2)

1. a kind of railway safety check security-protection management system, including face acquiring and identifying module, signal processing module, controller, storage Module and alarm module, it is characterised in that the controller connects alarm module, memory module and signal processing module respectively, Signal processing module is also connected with face recognition module；The alarm module also includes double-audible frequency circuit, the dual-audio solution Code circuit includes tone decoder IC1, resistance R25 and resistance R26, and the signal processing module includes single-chip microcomputer IC2, electric capacity C13 and electric capacity C14, the memory module includes storage chip IC3, and the polarity transformation circuitses include rectifier bridge Q and triode V1；The tone decoder IC1 pins IN+ connects resistance R2 and resistance R4, resistance R2 other ends connection electric capacity C2, electric capacity respectively The C2 other ends connect input signal L1, input signal L4 and rectifier bridge Q pin 1, the tone decoder IC1 pins IN- respectively Resistance R3 and resistance R5 is connected respectively, and the resistance R3 other ends connect resistance R1 and tone decoder IC1 pin GS, resistance R1 respectively The other end connects electric capacity C1, and the electric capacity C1 other ends connect input signal L2, input signal L3 and rectifier bridge Q pin 3 respectively, described The resistance R4 other ends connect the resistance R5 other ends and tone decoder IC1 pins YREF, the tone decoder IC1 pins respectively RT/GT connects resistance R6 and electric capacity C3, resistance R6 other ends connection tone decoder IC1 pin EST, tone decoder respectively IC1 pins Vss connects electric capacity C3 and is grounded, and tone decoder IC1 pins Vdd connects 5V positive sources and resistance R31 respectively, electricity Resistance R31 other end connecting triode V4 colelctor electrodes, triode V4 base stages connect earth resistance R32, ground capacity C12 and electricity respectively Resistance R30, the resistance R30 other ends connect tone decoder IC1 pins TOE and tone decoder IC1 pin Pins NC respectively, described Triode V4 grounded emitters, the rectifier bridge Q pin 4 connects resistance R8, electric capacity C4 and resistance R34 respectively, and resistance R34 is another End connects resistance R33 and triode V5 base stages respectively, and triode V5 colelctor electrodes connect resistance R35 and triode V6 base stages respectively, The resistance R35 other ends connect 5V positive sources, and the triode V5 emitter stages and triode V6 colelctor electrodes are grounded, triode V6 Emitter stage connects single-chip microcomputer IC2 pins RC5, and the resistance R33 other ends connect rectifier bridge Q pin 2, resistance R9 and three poles respectively Pipe V2 emitter stages, triode V2 colelctor electrodes difference connecting triode V1 colelctor electrodes and resistance R11, triode V1 emitter stages connect respectively The connecting resistance R8 other ends and resistance R7, the resistance R7 other ends connection electric capacity C4 other ends, the triode V1 base stages are connected respectively Resistance R12, resistance R14, resistance R15 and ground capacity C6, resistance R14 other ends connection electric capacity C5, the connection of the electric capacity C5 other ends Earth resistance R13, the resistance R15 other ends connect ground capacity C7 and electric capacity C8 respectively, and the electric capacity C8 other ends are connected respectively Ground capacity C10 and resistance R16, resistance the R16 other end connect resistance R17 and resistance R29, resistance R29 other ends difference respectively Connection tone decoder pin Q4 and single-chip microcomputer IC2 pins RA3, the triode V2 base stages connect respectively the resistance R9 other ends and Resistance R10, resistance R10 other end connecting triode V3 colelctor electrodes, triode V3 grounded emitters, triode V3 base stages connection electricity Resistance R42, resistance R42 other ends connection single-chip microcomputer IC2 pins RC2, the resistance R17 other ends connect resistance R18 and electricity respectively Resistance R28, the resistance R28 other ends connect tone decoder IC1 pins Q3 and single-chip microcomputer IC2 pins RA2, the resistance R18 respectively The other end connects resistance R19 and resistance R27 respectively, and the resistance R27 other ends connect tone decoder IC1 pins Q2 and monolithic respectively Machine IC1 pins RA1, the resistance R19 other ends connect resistance R20 and resistance R26 respectively, and the resistance R26 other ends are connected respectively Tone decoder IC1 pins Q1 and single-chip microcomputer IC1 pins RA0, the resistance R20 other ends connect resistance R21 and resistance respectively R25, resistance the R25 other end connect single-chip microcomputer IC2 pins RC1, the resistance R21 other ends connect respectively earth resistance R22 and Resistance R24, resistance the R24 other end connection single-chip microcomputer IC2 pins RC4, the tone decoder IC1 pins INH connect electric capacity C11, electric capacity the C11 other end connect electric capacity C13, crystal oscillator Y and single-chip microcomputer IC2 pin OSC2, single-chip microcomputer IC2 pins OSC1 points respectively Not Lian Jie the crystal oscillator Y other ends and electric capacity C14, the electric capacity C14 other ends connection electric capacity C13 other ends simultaneously be grounded, the single-chip microcomputer IC2 Pin Vdd connects 5V positive sources and resistance R36 respectively, and the resistance R36 other ends connect single-chip microcomputer IC2 pins VPP and connect respectively Electric capacity C15, the single-chip microcomputer IC2 pins RB4 connect resistance R23 on ground, and resistance R23 other ends connection ground connection light emitting transistor D5 is just Pole, the single-chip microcomputer IC2 pins RC3 connects earth resistance R38 and resistance R37, resistance R37 other end connecting triodes V7 respectively Base stage, triode V7 grounded emitters, triode V7 colelctor electrodes connection buzzer B1, the buzzer B1 other ends connection 5V power supply are just Pole, the single-chip microcomputer IC2 pins RB7 connects resistance R39 and resistance R40, luminous three poles of resistance R40 other ends connection ground connection respectively Pipe D6 positive poles, the resistance R39 other ends connect earth resistance R41 and triode V8 base stages respectively, and triode V8 emitter stages connect Ground, triode V8 colelctor electrodes connection buzzer B2, buzzer B2 other ends connection 9V positive sources, the single-chip microcomputer IC2 pins RB6 connects storage chip IC3 pin SCL, and single-chip microcomputer IC2 pins RB0 connects storage chip IC3 pin SDA, and single-chip microcomputer IC2 draws Pin N/C and single-chip microcomputer IC2 pins Vss are grounded, and the storage chip IC3 pins Vcc connects 5V positive sources, storage chip IC3 pins A0 ~ A4 and storage chip IC3 pins Vss are grounded.

2. railway safety check security-protection management system according to claim 1, it is characterised in that the tone decoder IC1 types Number be MT8870, the single-chip microcomputer IC2 models PIC16C57, the storage chip IC3 models 24C02.