CN203812403U - Novel lane control warning device - Google Patents

Abstract

Provided is a novel lane control warning device. A central control module is in interface connection with an onboard dial module, an audio frequency power amplifier module, a red and blue explosion-flashing module, an LED drive module, a DC-DC module, a feedback module, a resistor R and capacitor S 485 communication module, a data storage module and an information acquisition module respectively. The audio frequency power amplifier module is connected with a horn. The red and blue explosion-flashing module is connected with a red and blue explosion-flashing lamp circuit board module. The LED drive module is connected with an LED circuit board module. The DC-DC module is connected with an external power supply module. The information acquisition module 1 is connected with a photosensitive sensor. The 485 communication module is connected with a data bus. The central control module sends a signal to the LED drive module to lighten the LED light emitting diode distribution point in the LED circuit board module in a default state. The feedback module sends the current display state to an external monitoring center. The monitoring center transmits the display state information to a data bus. The resistor R and capacitor S 485 communication module of the LED lane indication sign receives corresponding data, and the purpose of safety protection is achieved.

Description

A kind of novel lane control alarming device

Technical field

The utility model belongs to Multifunction carriage way indicator techniques field, particularly a kind of novel lane control alarming device.

Background technology

Along with the fast development of China's economy, mountain area and knob highway construction mileage constantly increase, and the proportion of tunnel in highway progressively increases.Vcehicular tunnel belongs to section special on highway, space environment is narrow, motor vehicle exhaust emission is difficult for distributing and to cause in tunnel air quality to worsen the visual field unclear, and vehicle sailing into, while rolling tunnel away from, to exist the inside and outside light in hole to change violent, be subject to the factors such as tunnel intraoral illumination condition affects, tunnel becomes the multiple point of traffic hazard simultaneously.For when there is the abnormal traffic events such as traffic hazard, can improve accident rescue efficiency, track indicator has been installed in tunnel, by red fork, green arrow, turn to etc., carry out vehicle pass-through control.But existing indication guiding function is single, not eye-catching, can not fully adapt to traffic control demand complicated and changeable, for example, the track indicator of main flow is all that green " ↓ " represents that track is normally current substantially at present, red “ ╳ " expression lane rejection; yellow " ← " represents to turn left to detour; there is no other guiding indication again; and because this three state is all static; suggesting effect is eye-catching not; especially for some traffic marks, realize thiner driver, may usually note the prompting less than track indicator, thereby lead to traffic hazard.As occurred in tunnel after anomalous event, existing track indicator “ ╳ " thus forbidden sign may not cause that some driver's abundant warning is carefully dodged has sent out event, so that secondary Frequent Accidents in tunnel.

While how to promote abnormal conditions, the security of the validity of traffic control, raising freeway tunnel vehicle pass-through, has been freeway tunnel operation management and construction unit problem in the urgent need to address.

Summary of the invention

In order to overcome the defect of above-mentioned prior art, the purpose of this utility model is to provide a kind of novel lane control alarming device, can carry out telecommunication by the resistance R electric capacity S485 communication technology, there is track indication, the quick-fried sudden strain of a muscle of red indigo plant, the functions such as voice broadcast service, when there is the anomalous events such as traffic hazard, effective impact with vision and the sense of hearing reaches the validity that improves traffic control, realize the red blue alarm lamp flicker that links immediately when green arrow reddens fork, warning driver is slowed down and is gone slowly or parking waiting, and can be according to user's request, sending buzzer warning sound or remote speech propagandas directed to communicate, in real time traffick is warned and induced, reach the object of security protection.

In order to achieve the above object, the technical scheme that the utility model adopts is:

A novel lane control alarming device, comprises that central control module 1, plate carry dial-up module 2, audio frequency power amplifier module 3, Bugle loud 4, the quick-fried sudden strain of a muscle module 5 of red indigo plant, red blue flashing light wiring board module 6, LED wiring board module 7, LED driver module 8, external power source module 9, DC-DC module 10, feedback module 11, light sensor 12, resistance R electric capacity S485 communication module 13, data bus 14, data memory module 15, information acquisition module 16; Each control port of described central control module 1 carries dial-up module 2, audio frequency power amplifier module 3, the quick-fried sudden strain of a muscle module 5 of red indigo plant, LED driver module 8, DC-DC module 10, feedback module 11, resistance R electric capacity S485 communication module 13, data memory module 15 with plate respectively and is connected with information acquisition module 16 interfaces; The control interface of audio frequency power amplifier module 3 is connected with Bugle loud 4; The control interface of the quick-fried sudden strain of a muscle module 5 of red indigo plant is connected with red blue flashing light wiring board module 6; The control interface of LED driver module 8 is connected with LED wiring board module 7; The power interface of DC-DC module 10 is connected with external power source module 9; The signal end of information acquisition module 16 is connected with light sensor 12; The signal end of 485 communication modules 13 is connected with data bus 14.

Described external power source module 9 comprises photoelectrical coupler TLP521-4 and rectifier bridge stack B1-rectifier bridge stack B5, 2 pin that 7 pin of external power source interface J1 connect electric capacity S5 and 2 pin of rectifier bridge stack B1 are connected the positive pole of diode D1 simultaneously, 1 pin of electric capacity S5 connects the earth, 1 pin of rectifier bridge stack B1 connects 3 pin of power output end power interface J2, 3 pin of rectifier bridge stack B1 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B1 connect 2 pin of power interface J2, the negative pole contact resistance R34 of diode D1, one end of resistance R 35, the other end of resistance R 34 connects the negative pole of diode D5, the anodal contact resistance R24 of diode D5, 7 pin of photoelectrical coupler photoelectrical coupler U9 and the negative pole of diode D12, the other end contact resistance R36 of resistance R 35, the other end contact resistance R24 of resistance R 36, 8 pin of photoelectrical coupler U9, 2 pin of external power source interface J1 and the positive pole of diode D12, 2 pin that 6 pin of external power source interface J1 connect electric capacity S4 and 2 pin of rectifier bridge stack B2 are connected the positive pole of diode D2 simultaneously, 1 pin of electric capacity S4 connects the earth, 1 pin of rectifier bridge stack B2 connects 3 pin of power interface J2, 3 pin of rectifier bridge stack B2 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B2 connect 2 pin of power interface J2, the negative pole contact resistance R32 of diode D2, one end of resistance R 31, the other end of resistance R 31 connects the negative pole of diode D6, the anodal contact resistance R23 of diode D6, 5 pin of photoelectrical coupler U9 and the negative pole of diode D11, the other end contact resistance R34 of resistance R 32, the other end contact resistance R23 of resistance R 33, 6 pin of photoelectrical coupler U9, 2 pin of external power source interface J1 and the positive pole of diode D11, 2 pin that 5 pin of external power source interface J1 connect electric capacity S3 and 2 pin of rectifier bridge stack B3 are connected the positive pole of diode D3 simultaneously, 1 pin of electric capacity S3 connects the earth, 1 pin of rectifier bridge stack B3 connects 3 pin of power interface J2, 3 pin of rectifier bridge stack B3 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B3 connect 2 pin of power interface J2, the negative pole contact resistance R29 of diode D3, one end of resistance R 28, the other end of resistance R 28 connects the negative pole of diode D7, the anodal contact resistance R22 of diode D7, 3 pin of photoelectrical coupler U9 and the negative pole of diode D10, the other end contact resistance R30 of resistance R 29, the other end contact resistance R22 of resistance R 30, 4 pin of photoelectrical coupler U9, 2 pin of external power source interface J1 and the positive pole of diode D10, 2 pin that 4 pin of external power source interface J1 connect electric capacity S2 and 2 pin of rectifier bridge stack B4 are connected the positive pole of diode D4 simultaneously, 1 pin of electric capacity S2 connects the earth, 1 pin of rectifier bridge stack B4 connects 3 pin of power interface J2, 3 pin of rectifier bridge stack B4 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B4 connect 2 pin of power interface J2, the negative pole contact resistance R25 of diode D4, one end of resistance R 26, the other end of resistance R 25 connects the negative pole of diode D8, the anodal contact resistance R21 of diode D8, 1 pin of photoelectrical coupler U9 and the negative pole of diode D9, the other end contact resistance R27 of resistance R 26, the other end contact resistance R21 of resistance R 27, 2 pin of photoelectrical coupler U9, 2 pin of external power source interface J1 and the positive pole of diode D9, 3 pin of external power source interface J1 connect 2 pin of electric capacity S1 and 2 pin of rectifier bridge stack B5,1 pin of electric capacity S2 connects the earth, 1 pin of rectifier bridge stack B5 connects 3 pin of power interface J2,3 pin of rectifier bridge stack B5 connect 2 pin of external power source interface J1, and 4 pin of rectifier bridge stack B5 connect 2 pin of power interface J2, 15,13,11, the 9 pin ground connection of photoelectrical coupler U9,16 pin of photoelectrical coupler U9 connect 58 pin and the resistance R 20 of master controller chip U1,14 pin of photoelectrical coupler U9 connect 57 pin and the resistance R 19 of master controller chip U1,12 pin of photoelectrical coupler U9 connect 56 pin and the resistance R 18 of master controller chip U1, and 10 pin of photoelectrical coupler U9 connect 55 pin and the resistance R 17 of master controller chip U1.

Described feedback module 11 comprises driving central control unit, driver element, relay; 85 pin contact resistance R42 one end of Master control chip STM32F103VCT6T U1, resistance R 42 connects 2 pin that relay drives chip ULN2007U7, relay drives 15 pin of chip U7 to connect the input end of relay resistance R E1, the output terminal of resistance R E1 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 2 pin that connect feedback interface J8; 84 pin contact resistance R43 one end of master controller chip U1, resistance R 43 connects 3 pin that relay drives chip U7, relay drives the input end of the 14 pin contact resistance RE2 of chip U7, the output terminal of resistance R E2 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 3 pin that connect feedback interface J8; 83 pin contact resistance R44 one end of master controller chip U1, resistance R 44 connects 4 pin that relay drives chip U7, relay drives the input end of the 13 pin contact resistance RE3 of chip U7, the output terminal of resistance R E3 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 4 pin that connect feedback interface J8; 82 pin contact resistance R45 one end of master controller chip U1, resistance R 45 connects 5 pin that relay drives chip U7, relay drives the input end of the 12 pin contact resistance RE4 of chip U7, the output terminal of resistance R E4 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 5 pin that connect feedback interface J8; 81 pin contact resistance R46 one end of master controller chip U1, resistance R 46 connects 6 pin that relay drives chip U7, relay drives the input end of the 11 pin contact resistance RE5 of chip U7, the output terminal of resistance R E5 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 6 pin that connect feedback interface J8; 80 pin contact resistance R47 one end of master controller chip U1, resistance R 47 connects 7 pin that relay drives chip U7, relay drives the input end of the 10 pin contact resistance RE6 of chip U7, the output terminal of resistance R E6 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 7 pin that connect feedback interface J8;

Described DC-DC module 10 comprises DC-DC switching type power supply chip, fly-wheel diode, I-shaped inductance, filter capacitor; 1 pin of 24V direct supply interface J7 connects capacitor C 16, the positive pole of capacitor C 27 and 1 pin of voltage transitions chip LM2596U6,3, the 5 pin ground connection of voltage transitions chip U6,2 pin of voltage transitions chip U6 connect one end of diode D13 and inductance L 1, and 4 pin of voltage transitions chip U6 connect the positive pole of inductance L 1, capacitor C 15, power supply VCC5 and capacitor C 28.

Described central control module 1 comprises K switch EY1, K switch EY1 one end ground connection, and the other end connects 78 pin of master controller chip U1 and one end of capacitor C 13, the other end ground connection of capacitor C 13; Reset switch resistance R ST1 one end ground connection, the other end connects 14 pin of master controller chip U1 and one end of capacitor C 6, the other end ground connection of capacitor C 6; 3 pin of 12 pin contact resistance R2, capacitor C 1 and the crystal oscillator Y1 of master controller chip U1,4 pin of crystal oscillator Y1 connect capacitor C 1, capacitor C 2 and ground connection, and 13 pin of master controller chip U1 connect 1 pin of capacitor C 2, resistance R 2 and crystal oscillator Y1; 19,20,10,27,99,74, the 49 pin ground connection of master controller chip U1; 21,22 pin of master controller chip U1 connect one end of capacitor C 4, capacitor C 3, capacitor C 30, inductance L 2, the other end ground connection of capacitor C 4, capacitor C 3, capacitor C 30; 6 pin of master controller chip U1 connect one end of power supply VCC33 and capacitor C 5, the other end ground connection of capacitor C 5; 50,70,100,28,11 pin of master controller chip U1 connect the positive pole of inductance L 2, capacitor C 11, capacitor C 10, capacitor C 9, capacitor C 8, capacitor C 7 and capacitor C 26, the minus earth of capacitor C 11, capacitor C 10, capacitor C 9, capacitor C 8, capacitor C 7 and capacitor C 26.

Described plate carries dial-up module 2 and comprises dial-up module SW1,1,2,3,4,5,6,7, the 8 pin ground connection of dial-up module toggle switch SW1; 16 pin of toggle switch SW1 connect 39 pin of master controller chip U1 and 9 pin of the plug-in resistance RS that runs in; 15 pin of toggle switch SW1 connect 40 pin of master controller chip U1 and 8 pin of connecting resistance RS; 14 pin of toggle switch SW1 connect 41 pin of master controller chip U1 and 7 pin of connecting resistance RS; 13 pin of toggle switch SW1 connect 42 pin of master controller chip U1 and 6 pin of connecting resistance RS; 12 pin of toggle switch SW1 connect 43 pin of master controller chip U1 and 5 pin of connecting resistance RS; 11 pin of toggle switch SW1 connect 44 pin of master controller chip U1 and 4 pin of connecting resistance RS; 10 pin of toggle switch SW1 connect 45 pin of master controller chip U1 and 3 pin of connecting resistance RS; 9 pin of toggle switch SW1 connect 46 pin of master controller chip U1 and 2 pin of connecting resistance RS;

Described data memory module 15 comprises FASH storage chip and isolation circuit; 1 pin of storage chip W25Q64DWSSI U2 connects 30 pin of Master control chip master controller chip U1; 2 pin of storage chip U2 connect 31 pin of master controller chip U1; 3 pin of storage chip U2 connect 32 pin of master controller chip U1; 5 pin of storage chip U2 connect 33 pin of master controller chip U1; 6 pin of storage chip U2 connect 34 pin of master controller chip U1; 7 pin of storage chip U2 connect 35 pin of master controller chip U1.

The quick-fried sudden strain of a muscle module 5 of described red indigo plant comprises level conversion triode, driven MOS pipe; The 2 pin contact resistance R39 of master controller chip U1, resistance R 39 connects the base stage of level conversion triode Q1,2 pin of the collector contact resistance R38 of triode Q1 and driven MOS die FDS9945, master controller chip metal-oxide-semiconductor drives 7,8 pin of chip to connect 2 pin of the quick-fried sudden strain of a muscle pin of red indigo plant J9 simultaneously; The 1 pin contact resistance R42 of master controller chip U1, the base stage of resistance R 41 connecting triode Q2, the collector contact resistance R40 of triode Q2 and master controller chip metal-oxide-semiconductor drive 4 pin of chip, and master controller chip metal-oxide-semiconductor drives 5,6 pin of chip to connect 3 pin of the quick-fried sudden strain of a muscle pin of red indigo plant J9 simultaneously;

Described audio frequency power amplifier module 3 comprises input filter, power amplifier integrate circuit, and output duplicate removal circuit, 1 pin of audio frequency power amplifier chip LM1875U8 connects one end of capacitor C electric capacity S2, capacitor C S7 and resistance R electric capacity S3; Other end contact resistance R electric capacity S3, one end of resistance R electric capacity S4 and the positive pole of capacitor C electric capacity S3 of resistance R electric capacity S2; The other end contact resistance R electric capacity S1 of capacitor C electric capacity S2 and one end of capacitor C electric capacity S10, the other end of resistance R electric capacity S1 connects 29 pin of master controller chip U1; The 5 pin contact resistance R electric capacity S4 of audio frequency power amplifier chip U8, positive pole and the 28V DC voltage of capacitor C S5, capacitor C electric capacity S4; The 2 pin contact resistance RS6 of audio frequency power amplifier chip U8, one end of resistance R S7, the other end of resistance R S6 connects the positive pole of capacitor C S8, the minus earth of capacitor C S8; 4 pin contact resistance RS7, the resistance R S5 of audio frequency power amplifier chip U8 and the positive pole of capacitor C S6, resistance R S5 connects capacitor C S9, capacitor C S9 ground connection, the negative pole of capacitor C S6 connects 1 pin of audio interface JS2, the 2 pin ground connection of audio interface JS2.

Described resistance R electric capacity S485 communication module 13 comprises that 485 circuits drive chip, decoupling capacitor, 232 level transferring chip; 68 pin of master controller chip U1 connect 11 pin of the MAX202A level transferring chip U5 of RS232, and 14 pin of level transferring chip U5 connect 2 pin of communication interface JCOM1; 69 pin of master controller chip U1 connect 12 pin of level transferring chip U5, and 13 pin of level transferring chip U5 connect 1 pin of communication interface JCOM1; 26 pin of master controller chip U1 connect 1 pin of RS485 conversion chip MAX487E U4,2 pin of the 7 pin contact resistance R37 of conversion chip U4 and 1 pin of diode TV electric capacity S1, diode TV electric capacity S3 are also connected 4 pin of communication interface JCOM1 simultaneously, 1 pin of diode TV electric capacity S3 connects the earth, and resistance R 37 connects 1 pin of JUMPE resistance R; 24 pin of master controller chip U1 connect 2,3 pin of conversion chip U4,6 pin of conversion chip U4 connect 2 pin of diode TV electric capacity S1, the 2 pin whiles of 1 pin of diode TV electric capacity S2 and JUMPE resistance R are also connected 5 pin of communication interface JCOM1, and 2 pin of diode TV electric capacity S2 connect the earth.

Described red blue flashing light wiring board module 6 comprises LED lamp pearl, current-limiting resistance, the 1 pin contact resistance RGA1 of INPUT, resistance R GA2, resistance R GA3, resistance R GA4, resistance R GA5, resistance R GA6, resistance R GA7, one end of resistance R GA8, resistance R GA1, resistance R GA2, resistance R GA3, resistance R GA4, resistance R GA5, resistance R GA6, resistance R GA7, the other end of the resistance R GA8 LED light emitting diode D_A1 that is connected in parallel, LED light emitting diode D_A8, LED light emitting diode D_A15, LED light emitting diode D_A22, LED light emitting diode D_A29, LED light emitting diode D_A36, the positive pole of LED light emitting diode D_A43, the negative pole of LED light emitting diode D_A1 connects the positive pole of LED light emitting diode D_A2, the negative pole of LED light emitting diode D_A8 connects the positive pole of LED light emitting diode D_A9, the negative pole of LED light emitting diode D_A15 connects the positive pole of LED light emitting diode D_A16, the negative pole of LED light emitting diode D_A22 connects the positive pole of LED light emitting diode D_A23, the negative pole of LED light emitting diode D_A29 connects the positive pole of LED light emitting diode D_A30, the negative pole of LED light emitting diode D_A36 connects the positive pole of LED light emitting diode D_A37, and the negative pole of LED light emitting diode D_A43 connects the positive pole of LED light emitting diode D_A44, LED light emitting diode D_A2, LED light emitting diode D_A9, LED light emitting diode D_A16, LED light emitting diode D_A23, LED light emitting diode D_A30, LED light emitting diode D_A37, the negative pole of the LED light emitting diode D_A44 LED light emitting diode D_A3 that is connected in parallel, LED light emitting diode D_A10, LED light emitting diode D_A17, LED light emitting diode D_A24, LED light emitting diode D_A31, LED light emitting diode D_A38, the positive pole of LED light emitting diode D_A45, the negative pole of LED light emitting diode D_A3 connects the positive pole of LED light emitting diode D_A4, the negative pole of LED light emitting diode D_A10 connects the positive pole of LED light emitting diode D_A11, the negative pole of LED light emitting diode D_A17 connects the positive pole of LED light emitting diode D_A18, the negative pole of LED light emitting diode D_A24 connects the positive pole of LED light emitting diode D_A25, the negative pole of LED light emitting diode D_A31 connects the positive pole of LED light emitting diode D_A32, the negative pole of LED light emitting diode D_A38 connects the positive pole of LED light emitting diode D_A39, the negative pole of LED light emitting diode D_A45 connects the positive pole of LED light emitting diode D_A46, LED light emitting diode D_A4, LED light emitting diode D_A11, LED light emitting diode D_A18, LED light emitting diode D_A25, LED light emitting diode D_A32, LED light emitting diode D_A39, the negative pole of the LED light emitting diode D_A46 LED light emitting diode D_A5 that is connected in parallel, LED light emitting diode D_A12, LED light emitting diode D_A19, LED light emitting diode D_A26, LED light emitting diode D_A33, LED light emitting diode D_A40, the positive pole of LED light emitting diode D_A47, the negative pole of LED light emitting diode D_A5 connects the positive pole of LED light emitting diode D_A6, the negative pole of LED light emitting diode D_A6 connects the positive pole of LED light emitting diode D_A7, the negative pole of LED light emitting diode D_A12 connects the positive pole of LED light emitting diode D_A13, the negative pole of LED light emitting diode D_A13 connects the positive pole of LED light emitting diode D_A14, the negative pole of LED light emitting diode D_A19 connects the positive pole of LED light emitting diode D_A20, the negative pole of LED light emitting diode D_A20 connects the positive pole of LED light emitting diode D_A21, the negative pole of LED light emitting diode D_A26 connects the positive pole of LED light emitting diode D_A27, the negative pole of LED light emitting diode D_A27 connects the positive pole of LED light emitting diode D_A28, the negative pole of LED light emitting diode D_A33 connects the positive pole of LED light emitting diode D_A34, the negative pole of LED light emitting diode D_A34 connects the positive pole of LED light emitting diode D_A35, the negative pole of LED light emitting diode D_A40 connects the positive pole of LED light emitting diode D_A41, the negative pole of LED light emitting diode D_A41 connects the positive pole of LED light emitting diode D_A42, the negative pole of LED light emitting diode D_A47 connects the positive pole of LED light emitting diode D_A48, the negative pole of LED light emitting diode D_A48 connects the positive pole of LED light emitting diode D_A49, the other end of resistance R GA8 connects the positive pole of LED light emitting diode D_A50, the negative pole of LED light emitting diode D_A50 connects the positive pole of LED light emitting diode D_A51, the negative pole of LED light emitting diode D_A51 connects the positive pole of LED light emitting diode D_A52, the negative pole of LED light emitting diode D_A52 connects the positive pole of LED light emitting diode D_A53, and the negative pole of LED light emitting diode D_A53 connects the positive pole of LED light emitting diode D_A54, 2 pin of INPUT connect the negative pole of LED light emitting diode D_A7, LED light emitting diode D_A14, LED light emitting diode D_A28, LED light emitting diode D_A35, LED light emitting diode D_A42, LED light emitting diode D_A49, LED light emitting diode D_A54.

Described LED wiring board module 7 comprises LED lamp pearl, current-limiting resistance; The 1 pin contact resistance RGC1 of external power source interface J1, one end of resistance R GC2, the other end of resistance R GC1 connects the positive pole of LED lamp pearl lamp pearl DGC1, the positive pole of the negative pole connecting lamp pearl DGC2 of LED lamp pearl lamp pearl DGC1, the positive pole of the negative pole connecting lamp pearl DGC3 of lamp pearl DGC2, the positive pole of the negative pole connecting lamp pearl DGC4 of lamp pearl DGC3, the positive pole of the negative pole connecting lamp pearl DGC6 of lamp pearl DGC5, the positive pole of the negative pole connecting lamp pearl DGC7 of lamp pearl DGC6; One end of the other end contact resistance RGC3 of resistance R GC2, the other end of resistance R GC3 connects the negative pole of DZ1, the anodal contact resistance RGC4 of DZ1 and the positive pole of lamp pearl DGC8, the positive pole of the negative pole connecting lamp pearl DGC9 of lamp pearl DGC8, the positive pole of the negative pole connecting lamp pearl DGC10 of lamp pearl DGC9; 2 pin connecting lamp pearl DGC7, the negative pole of lamp pearl DGC10 and the other end of resistance R GC4 of external power source interface J1.

Advantage of the present utility model: this apparatus for deivation is that the part Mechatronic Systems in tunnel has been carried out among a small circle integrated, is not only saving space, and the care and maintenance in later stage is brought great convenience.The validity of this apparatus for deivation traffic control when promoting abnormal conditions, the security that improves freeway tunnel vehicle pass-through is theory, integrated track indicator, red blue flashing light and audio alert loudspeaker, there is track indication, the quick-fried sudden strain of a muscle of red indigo plant, the functions such as voice broadcast service, can carry out telecommunication by the resistance R electric capacity S485 communication technology, when there is the anomalous events such as traffic hazard, effective impact with vision and the sense of hearing reaches the validity that improves traffic control, warning driver is slowed down and is gone slowly or parking waiting, and can be according to user's request, sending buzzer warning sound or remote speech propagandas directed to communicate, in real time traffick is warned and induced, reach the object of security protection.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of external power source mould 9.

Fig. 2 is the schematic diagram of feedback mould 11.

Fig. 3 is the schematic diagram of DC-DC module 10.

Fig. 4 is the schematic diagram of central control module 1.

Fig. 5 is the schematic diagram that plate carries dial-up module 2.

Fig. 6 is the schematic diagram of data memory module 15.

Fig. 7 is the schematic diagram of the quick-fried sudden strain of a muscle module 5 of red indigo plant.

Fig. 8 is the schematic diagram of audio frequency power amplifier module 3.

Fig. 9 is the schematic diagram of resistance R electric capacity S485 communication module 13.

Figure 10 is the schematic diagram of red blue flashing light wiring board module 6.

Figure 11 is the schematic diagram of LED wiring board module 7.

Figure 12 is LED Unit LED light emitting diode distribution schematic diagram, and wherein Figure 12 A is that no through traffic, and Figure 12 B allows to pass through, and Figure 12 C turns left to travel.

Figure 13 is red blue flashing light distribution signal.

Figure 14 is structured flowchart of the present utility model.

Embodiment

Below in conjunction with accompanying drawing, structural principle of the present utility model and principle of work are described in detail.

With reference to Figure 14, a novel lane control alarming device, comprises that central control module 1, plate carry dial-up module 2, audio frequency power amplifier module 3, Bugle loud 4, the quick-fried sudden strain of a muscle module 5 of red indigo plant, red blue flashing light wiring board module 6, LED wiring board module 7, LED driver module 8, external power source module 9, DC-DC module 10, feedback module 11, light sensor 12, resistance R electric capacity S485 communication module 13, data bus 14, data memory module 15, information acquisition module 16; Each control port of described central control module 1 carries dial-up module 2, audio frequency power amplifier module 3, the quick-fried sudden strain of a muscle module 5 of red indigo plant, LED driver module 8, DC-DC module 10, feedback module 11, resistance R electric capacity S485 communication module 13, data memory module 15 with plate respectively and is connected with information acquisition module 16 interfaces; The control interface of audio frequency power amplifier module 3 is connected with Bugle loud 4; The control interface of the quick-fried sudden strain of a muscle module 5 of red indigo plant is connected with red blue flashing light wiring board module 6; The control interface of LED driver module 8 is connected with LED wiring board module 7; The power interface of DC-DC module 10 is connected with external power source module 9; The signal end of information acquisition module 16 is connected with light sensor 12; The signal end of 485 communication modules 13 is connected with data bus 14.

With reference to Fig. 1, described external power source module 9 comprises photoelectrical coupler TLP521-4 and rectifier bridge stack B1-rectifier bridge stack B5, 2 pin that 7 pin of external power source interface J1 connect electric capacity S5 and 2 pin of rectifier bridge stack B1 are connected the positive pole of diode diode D1 simultaneously, 1 pin of electric capacity S5 connects the earth, 1 pin of rectifier bridge stack B1 connects 3 pin of power output end power interface J2, 3 pin of rectifier bridge stack B1 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B1 connect 2 pin of power interface J2, the negative pole contact resistance R34 of diode D1, one end of resistance R 35, the other end of resistance R 34 connects the negative pole of diode D5, the anodal contact resistance R24 of diode D5, 7 pin of photoelectrical coupler U9 and the negative pole of diode D12, the other end contact resistance R36 of resistance R 35, the other end contact resistance R24 of resistance R 36, 8 pin of photoelectrical coupler U9, 2 pin of external power source interface J1 and the positive pole of diode D12, 2 pin that 6 pin of external power source interface J1 connect electric capacity S4 and 2 pin of rectifier bridge stack B2 are connected the positive pole of diode D2 simultaneously, 1 pin of electric capacity S4 connects the earth, 1 pin of rectifier bridge stack B2 connects 3 pin of power interface J2, 3 pin of rectifier bridge stack B2 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B2 connect 2 pin of power interface J2, the negative pole contact resistance R32 of diode D2, one end of resistance R 31, the other end of resistance R 31 connects the negative pole of diode D6, the anodal contact resistance R23 of diode D6, 5 pin of photoelectrical coupler U9 and the negative pole of diode D11, the other end contact resistance R34 of resistance R 32, the other end contact resistance R23 of resistance R 33, 6 pin of photoelectrical coupler U9, 2 pin of external power source interface J1 and the positive pole of diode D11, 2 pin that 5 pin of external power source interface J1 connect electric capacity S3 and 2 pin of rectifier bridge stack B3 are connected the positive pole of diode D3 simultaneously, 1 pin of electric capacity S3 connects the earth, 1 pin of rectifier bridge stack B3 connects 3 pin of power interface J2, 3 pin of rectifier bridge stack B3 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B3 connect 2 pin of power interface J2, the negative pole contact resistance R29 of diode D3, one end of resistance R 28, the other end of resistance R 28 connects the negative pole of diode D7, the anodal contact resistance R22 of diode D7, 3 pin of photoelectrical coupler U9 and the negative pole of diode D10, the other end contact resistance R30 of resistance R 29, the other end contact resistance R22 of resistance R 30, 4 pin of photoelectrical coupler U9, 2 pin of external power source interface J1 and the positive pole of diode D10, 2 pin that 4 pin of external power source interface J1 connect electric capacity S2 and 2 pin of rectifier bridge stack B4 are connected the positive pole of diode D4 simultaneously, 1 pin of electric capacity S2 connects the earth, 1 pin of rectifier bridge stack B4 connects 3 pin of power interface J2, 3 pin of rectifier bridge stack B4 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B4 connect 2 pin of power interface J2, the negative pole contact resistance R25 of diode D4, one end of resistance R 26, the other end of resistance R 25 connects the negative pole of diode D8, the anodal contact resistance R21 of diode D8, 1 pin of photoelectrical coupler U9 and the negative pole of diode D9, the other end contact resistance R27 of resistance R 26, the other end contact resistance R21 of resistance R 27, 2 pin of photoelectrical coupler U9, the positive pole of 2 pin of external power source interface J1 and diode diode D9, 3 pin of external power source interface J1 connect 2 pin of electric capacity S1 and 2 pin of rectifier bridge stack B5,1 pin of electric capacity S2 connects the earth, 1 pin of rectifier bridge stack B5 connects 3 pin of power interface J2,3 pin of rectifier bridge stack B5 connect 2 pin of external power source interface J1, and 4 pin of rectifier bridge stack B5 connect 2 pin of power interface J2, 15,13,11, the 9 pin ground connection of photoelectrical coupler U9,16 pin of photoelectrical coupler U9 connect 58 pin and the resistance R 20 of master controller chip U1,14 pin of photoelectrical coupler U9 connect 57 pin and the resistance R 19 of master controller chip U1,12 pin of photoelectrical coupler U9 connect 56 pin and the resistance R 18 of master controller chip U1, and 10 pin of photoelectrical coupler U9 connect 55 pin and the resistance R 17 of master controller chip U1.

With reference to Fig. 2, described feedback module 11 comprises driving central control unit, driver element, relay; 85 pin contact resistance R42 one end of Master control chip STM32F103VCT6T resistance R master controller chip U1, resistance R 42 connects relay and drives chip ULN2007 relay to drive 2 pin of chip U7, relay drives 15 pin of chip U7 to connect the input end of relay resistance R E1, the output terminal of resistance R E1 has three ports, what one end connected is 1 pin of feedback interface feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 2 pin that connect feedback interface J8; 84 pin contact resistance R43 one end of master controller chip U1, resistance R 43 connects 3 pin that relay drives chip U7, relay drives the input end of the 14 pin contact resistance RE2 of chip U7, the output terminal of resistance R E2 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 3 pin that connect feedback interface J8; 83 pin contact resistance R44 one end of master controller chip U1, resistance R 44 connects 4 pin that relay drives chip U7, relay drives the input end of the 13 pin contact resistance RE3 of chip U7, the output terminal of resistance R E3 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 4 pin that connect feedback interface J8; 82 pin contact resistance R45 one end of master controller chip U1, resistance R 45 connects 5 pin that relay drives chip U7, relay drives the input end of the 12 pin contact resistance RE4 of chip U7, the output terminal of resistance R E4 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 5 pin that connect feedback interface J8; 81 pin contact resistance R46 one end of master controller chip U1, resistance R 46 connects 6 pin that relay drives chip U7, relay drives the input end of the 11 pin contact resistance RE5 of chip U7, the output terminal of resistance R E5 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 6 pin that connect feedback interface J8; 80 pin contact resistance R47 one end of master controller chip U1, resistance R 47 connects 7 pin that relay drives chip U7, relay drives the input end of the 10 pin contact resistance RE6 of chip U7, the output terminal of resistance R E6 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 7 pin that connect feedback interface J8;

With reference to Fig. 3, described DC-DC module 10 comprises DC-DC switching type power supply chip, fly-wheel diode, I-shaped inductance, filter capacitor; The positive pole that 1 pin of 24V direct supply interface J7 connects capacitor C 16, capacitor C 27 is connected with 1 pin of voltage transitions chip LM2596,3, the 5 pin ground connection of voltage transitions chip U6,2 pin of voltage transitions chip U6 connect one end of diode D13 and inductance L 1, and 4 pin of voltage transitions chip U6 connect the positive pole of inductance L 1, capacitor C 15, power supply VCC5 and capacitor C 28.

With reference to Fig. 4, described central control module 1 comprises K switch EY1, K switch EY1 one end ground connection, and the other end connects 78 pin of master controller chip U1 and one end of capacitor C 13, the other end ground connection of capacitor C 13; As shown in module 2: reset switch resistance R ST1 one end ground connection, the other end connects 14 pin of master controller chip U1 and one end of capacitor C 6, the other end ground connection of capacitor C 6; As shown in module 3: 3 pin of 12 pin contact resistance R2, capacitor C 1 and the crystal oscillator Y1 of master controller chip U1,4 pin of crystal oscillator Y1 connect capacitor C 1, capacitor C 2 and ground connection, and 13 pin of master controller chip U1 connect 1 pin of capacitor C 2, resistance R 2 and crystal oscillator Y1; As shown in module 4: 19,20,10,27,99,74, the 49 pin ground connection of master controller chip U1; 21,22 pin of master controller chip U1 connect one end of capacitor C 4, capacitor C 3, capacitor C 30, inductance L 2, the other end ground connection of capacitor C 4, capacitor C 3, capacitor C 30; 6 pin of master controller chip U1 connect one end of power supply VCC33 and capacitor C 5, the other end ground connection of capacitor C 5; 50,70,100,28,11 pin of master controller chip U1 connect the positive pole of inductance L 2, capacitor C 11, capacitor C 10, capacitor C 9, capacitor C 8, capacitor C 7 and capacitor C 26, the minus earth of capacitor C 11, capacitor C 10, capacitor C 9, capacitor C 8, capacitor C 7 and capacitor C 26.

With reference to Fig. 5, described plate carries dial-up module 2 and comprises dial-up module toggle switch SW1,1,2,3,4,5,6,7, the 8 pin ground connection of dial-up module toggle switch SW1; 16 pin of toggle switch SW1 connect 39 pin of master controller chip U1 and 9 pin of the plug-in resistance RS that runs in; 15 pin of toggle switch SW1 connect 40 pin of master controller chip U1 and 8 pin of connecting resistance RS; 14 pin of toggle switch SW1 connect 41 pin of master controller chip U1 and 7 pin of connecting resistance RS; 13 pin of toggle switch SW1 connect 42 pin of master controller chip U1 and 6 pin of connecting resistance RS; 12 pin of toggle switch SW1 connect 43 pin of master controller chip U1 and 5 pin of connecting resistance RS; 11 pin of toggle switch SW1 connect 44 pin of master controller chip U1 and 4 pin of connecting resistance RS; 10 pin of toggle switch SW1 connect 45 pin of master controller chip U1 and 3 pin of connecting resistance RS; 9 pin of toggle switch SW1 connect 46 pin of master controller chip U1 and 2 pin of connecting resistance RS.

With reference to Fig. 6, described data memory module 15 comprises FASH storage chip and isolation circuit; 1 pin of storage chip W25Q64DWSSI storage chip U2 connects 30 pin of Master control chip master controller chip U1; 2 pin of storage chip U2 connect 31 pin of master controller chip U1; 3 pin of storage chip U2 connect 32 pin of master controller chip U1; 5 pin of storage chip U2 connect 33 pin of master controller chip U1; 6 pin of storage chip U2 connect 34 pin of master controller chip U1; 7 pin of storage chip U2 connect 35 pin of master controller chip U1.

With reference to Fig. 7, the quick-fried sudden strain of a muscle module 5 of described red indigo plant comprises level conversion triode, driven MOS pipe; The 2 pin contact resistance R39 of master controller chip U1, resistance R 39 connects the base stage of level conversion triode triode Q1,2 pin of the collector contact resistance R38 of triode Q1 and driven MOS die FDS9945, master controller chip metal-oxide-semiconductor drives 7,8 pin of chip to connect 2 pin of the quick-fried sudden strain of a muscle pin of red indigo plant J9 simultaneously; The 1 pin contact resistance R42 of master controller chip U1, the base stage of resistance R 41 connecting triode Q2, the collector contact resistance R40 of triode Q2 and master controller chip metal-oxide-semiconductor drive 4 pin of chip, and master controller chip metal-oxide-semiconductor drives 5,6 pin of chip to connect 3 pin of the quick-fried sudden strain of a muscle pin of red indigo plant J9 simultaneously;

With reference to Fig. 8, described audio frequency power amplifier module 3 comprises input filter, power amplifier integrate circuit, and output duplicate removal circuit, 1 pin of audio frequency power amplifier chip LM1875 audio frequency power amplifier chip U8 connects one end of capacitor C electric capacity S2, capacitor C S7 and resistance R electric capacity S3; Other end contact resistance R electric capacity S3, one end of resistance R electric capacity S4 and the positive pole of capacitor C electric capacity S3 of resistance R electric capacity S2; The other end contact resistance R electric capacity S1 of capacitor C electric capacity S2 and one end of capacitor C electric capacity S10, the other end of resistance R electric capacity S1 connects 29 pin of master controller chip U1; The 5 pin contact resistance R electric capacity S4 of audio frequency power amplifier chip U8, positive pole and the 28V DC voltage of capacitor C S5, capacitor C electric capacity S4; The 2 pin contact resistance RS6 of audio frequency power amplifier chip U8, one end of resistance R S7, the other end of resistance R S6 connects the positive pole of capacitor C S8, the minus earth of capacitor C S8; 4 pin contact resistance RS7, the resistance R S5 of audio frequency power amplifier chip U8 and the positive pole of capacitor C S6, resistance R S5 connects capacitor C S9, capacitor C S9 ground connection, 1 pin of the negative pole connecting interface JS2 of capacitor C S6, the 2 pin ground connection of electric capacity JS2.

With reference to Fig. 9, described resistance R electric capacity S485 communication module 13 comprises that 485 circuits drive chip, decoupling capacitor, 232 level transferring chip; 68 pin of master controller chip U1 connect 11 pin of RS232 level transferring chip MAX202A, and 14 pin of level transferring chip U5 connect 2 pin of communication interface JCOM1; 69 pin of master controller chip U1 connect 12 pin of level transferring chip U5, and 13 pin of level transferring chip U5 connect 1 pin of communication interface JCOM1; 26 pin of master controller chip U1 connect 1 pin of RS485 conversion chip MAX487E, 2 pin of the 7 pin contact resistance R37 of conversion chip U4 and 1 pin of diode TV electric capacity S1, diode TV electric capacity S3 are also connected 4 pin of communication interface JCOM1 simultaneously, 1 pin of diode TV electric capacity S3 connects the earth, and resistance R 37 connects 1 pin of JUMPE resistance R; 24 pin of master controller chip U1 connect 2,3 pin of conversion chip U4,6 pin of conversion chip U4 connect 2 pin of diode TV electric capacity S1, the 2 pin whiles of 1 pin of diode TV electric capacity S2 and JUMPE resistance R are also connected 5 pin of communication interface JCOM1, and 2 pin of diode TV electric capacity S2 connect the earth.

With reference to Figure 10, described red blue flashing light wiring board module 6 comprises LED lamp pearl, current-limiting resistance, the 1 pin contact resistance RGA1 of INPUT, resistance R GA2, resistance R GA3, resistance R GA4, resistance R GA5, resistance R GA6, resistance R GA7, one end of resistance R GA8, resistance R GA1, resistance R GA2, resistance R GA3, resistance R GA4, resistance R GA5, resistance R GA6, resistance R GA7, the other end of the resistance R GA8 LED LED light emitting diode D_A1 that is connected in parallel, LED light emitting diode D_A8, LED light emitting diode D_A15, LED light emitting diode D_A22, LED light emitting diode D_A29, LED light emitting diode D_A36, the positive pole of LED light emitting diode D_A43, the negative pole of LED light emitting diode D_A1 connects the positive pole of LED light emitting diode D_A2, the negative pole of LED light emitting diode D_A8 connects the positive pole of LED light emitting diode D_A9, the negative pole of LED light emitting diode D_A15 connects the positive pole of LED light emitting diode D_A16, the negative pole of LED light emitting diode D_A22 connects the positive pole of LED light emitting diode D_A23, the negative pole of LED light emitting diode D_A29 connects the positive pole of LED light emitting diode D_A30, the negative pole of LED light emitting diode D_A36 connects the positive pole of LED light emitting diode D_A37, and the negative pole of LED light emitting diode D_A43 connects the positive pole of LED light emitting diode D_A44, LED light emitting diode D_A2, LED light emitting diode D_A9, LED light emitting diode D_A16, LED light emitting diode D_A23, LED light emitting diode D_A30, LED light emitting diode D_A37, the negative pole of the LED light emitting diode D_A44 LED light emitting diode D_A3 that is connected in parallel, LED light emitting diode D_A10, LED light emitting diode D_A17, LED light emitting diode D_A24, LED light emitting diode D_A31, LED light emitting diode D_A38, the positive pole of LED light emitting diode D_A45, the negative pole of LED light emitting diode D_A3 connects the positive pole of LED light emitting diode D_A4, the negative pole of LED light emitting diode D_A10 connects the positive pole of LED light emitting diode D_A11, the negative pole of LED light emitting diode D_A17 connects the positive pole of LED light emitting diode D_A18, the negative pole of LED light emitting diode D_A24 connects the positive pole of LED light emitting diode D_A25, the negative pole of LED light emitting diode D_A31 connects the positive pole of LED light emitting diode D_A32, the negative pole of LED light emitting diode D_A38 connects the positive pole of LED light emitting diode D_A39, the negative pole of LED light emitting diode D_A45 connects the positive pole of LED light emitting diode D_A46, LED light emitting diode D_A4, LED light emitting diode D_A11, LED light emitting diode D_A18, LED light emitting diode D_A25, LED light emitting diode D_A32, LED light emitting diode D_A39, the negative pole of the LED light emitting diode D_A46 LED light emitting diode D_A5 that is connected in parallel, LED light emitting diode D_A12, LED light emitting diode D_A19, LED light emitting diode D_A26, LED light emitting diode D_A33, LED light emitting diode D_A40, the positive pole of LED light emitting diode D_A47, the negative pole of LED light emitting diode D_A5 connects the positive pole of LED light emitting diode D_A6, the negative pole of LED light emitting diode D_A6 connects the positive pole of LED light emitting diode D_A7, the negative pole of LED light emitting diode D_A12 connects the positive pole of LED light emitting diode D_A13, the negative pole of LED light emitting diode D_A13 connects the positive pole of LED light emitting diode D_A14, the negative pole of LED light emitting diode D_A19 connects the positive pole of LED light emitting diode D_A20, the negative pole of LED light emitting diode D_A20 connects the positive pole of LED light emitting diode D_A21, the negative pole of LED light emitting diode D_A26 connects the positive pole of LED light emitting diode D_A27, the negative pole of LED light emitting diode D_A27 connects the positive pole of LED light emitting diode D_A28, the negative pole of LED light emitting diode D_A33 connects the positive pole of LED light emitting diode D_A34, the negative pole of LED light emitting diode D_A34 connects the positive pole of LED light emitting diode D_A35, the negative pole of LED light emitting diode D_A40 connects the positive pole of LED light emitting diode D_A41, the negative pole of LED light emitting diode D_A41 connects the positive pole of LED light emitting diode D_A42, the negative pole of LED light emitting diode D_A47 connects the positive pole of LED light emitting diode D_A48, the negative pole of LED light emitting diode D_A48 connects the positive pole of LED light emitting diode D_A49, the other end of resistance R GA8 connects the positive pole of LED light emitting diode D_A50, the negative pole of LED light emitting diode D_A50 connects the positive pole of LED light emitting diode D_A51, the negative pole of LED light emitting diode D_A51 connects the positive pole of LED light emitting diode D_A52, the negative pole of LED light emitting diode D_A52 connects the positive pole of LED light emitting diode D_A53, and the negative pole of LED light emitting diode D_A53 connects the positive pole of LED light emitting diode D_A54, 2 pin of INPUT connect the negative pole of LED light emitting diode D_A7, LED light emitting diode D_A14, LED light emitting diode D_A28, LED light emitting diode D_A35, LED light emitting diode D_A42, LED light emitting diode D_A49, LED light emitting diode D_A54.

With reference to Figure 11, described LED wiring board module 7 comprises LED lamp pearl, current-limiting resistance; The 1 pin contact resistance RGC1 of external power source interface J1, one end of resistance R GC2, the other end of resistance R GC1 connects the positive pole of LED lamp pearl lamp pearl DGC1, the positive pole of the negative pole connecting lamp pearl DGC2 of LED lamp pearl lamp pearl DGC1, the positive pole of the negative pole connecting lamp pearl DGC3 of lamp pearl DGC2, the positive pole of the negative pole connecting lamp pearl DGC4 of lamp pearl DGC3, the positive pole of the negative pole connecting lamp pearl DGC6 of lamp pearl DGC5, the positive pole of the negative pole connecting lamp pearl DGC7 of lamp pearl DGC6; One end of the other end contact resistance RGC3 of resistance R GC2, the other end of resistance R GC3 connects the negative pole of DZ1, the anodal contact resistance RGC4 of DZ1 and the positive pole of lamp pearl DGC8, the positive pole of the negative pole connecting lamp pearl DGC9 of lamp pearl DGC8, the positive pole of the negative pole connecting lamp pearl DGC10 of lamp pearl DGC9; 2 pin connecting lamp pearl DGC7, the negative pole of lamp pearl DGC10 and the other end of resistance R GC4 of external power source interface J1.

Principle of work of the present utility model is: with reference to Figure 14, after this apparatus for deivation powers on, central control module 1 sends signal to LED driver module 8, light the LED light emitting diode distributed points in the LED wiring board module 7 of default conditions, it under default conditions, is the red fork of positive green arrow reverse side, feedback module 11 sends current show state to outside Surveillance center, Surveillance center arrives data bus 14 by status information transmission to be shown, the resistance R electric capacity S485 communication module 13 of LED track Warning Mark is accepted corresponding data, central control module 1 according to database with accept data and contrast, to LED driver module 8, send the LED light emitting diode distributed points of the bright corresponding state of signaling point.

(1), during default conditions, track indicator is positive shows that green arrow " ↓ " reverse side shows red Cha “ ╳ ", under red blue alarm lamp and alarm speaker default conditions, do not work.Under normal circumstances, the utility model is in default conditions, current by track indicator 4 guided vehicles;

(2) when tunnel maintenance overhauls, track indicator carries out the traffic control of independent track according to the control signal of master controller 1, and indicator front, track becomes red fork " ╳ ", and red blue alarm lamp starts flicker, and warning vehicle deceleration also detours;

During ordinary traffic event (3) (vehicle trouble, shed thing etc.), track indicator carries out the traffic control of independent track according to the control signal of master controller, indicator front, track becomes red fork " ╳ "; red blue alarm lamp starts flicker; alarm speaker sends alarm sound; warning vehicle deceleration is gone slowly, and notes dodging;

(4) during traffic hazard, track indicator carries out traffic control, and indicator front, track becomes red Cha “ ╳ ", red blue alarm lamp starts flicker; the voice signal that master controller receiving remote control interface is received drives alarm speaker to carry out voice by power amplifier module and propagandas directed to communicate, induction traffic;

(5), during tunnel single width opposing traffic, the multifunctional tunnel track indicator that is arranged on fast and runway is used in conjunction with, channel traffic.Now, indicator front, fast track becomes red Cha “ ╳ ", reverse side becomes green arrow " ↓ ", runway track indicator is default conditions, i.e. the red Cha “ of positive green arrow " ↓ " reverse side ╳ ", fast, the red blue alarm lamp of runway start flicker.

Claims (12)

1. a novel lane control alarming device, it is characterized in that, comprise that central control module (1), plate carry dial-up module (2), audio frequency power amplifier module (3), Bugle loud (4), the quick-fried sudden strain of a muscle module of red indigo plant (5), red blue flashing light wiring board module (6), LED wiring board module (7), LED driver module (8), external power source module (9), DC-DC module (10), feedback module (11), light sensor (12), resistance R electric capacity S485 communication module (13), data bus (14), data memory module (15), information acquisition module (16); Each control port of described central control module (1) carries dial-up module (2), audio frequency power amplifier module (3), the quick-fried sudden strain of a muscle module of red indigo plant (5), LED driver module (8), DC-DC module (10), feedback module (11), resistance R electric capacity S485 communication module (13), data memory module (15) and information acquisition module (16) interface with plate respectively and is connected; The control interface of audio frequency power amplifier module (3) is connected with Bugle loud (4); The control interface of the quick-fried sudden strain of a muscle module of red indigo plant (5) is connected with red blue flashing light wiring board module (6); The control interface of LED driver module (8) is connected with LED wiring board module (7); The power interface of DC-DC module (10) is connected with external power source module (9); The signal end of information acquisition module (16) is connected with light sensor (12); The signal end of 485 communication modules (13) is connected with data bus (14).

2. a kind of novel lane control alarming device according to claim 1, is characterized in that, described external power source module (9) comprises photoelectrical coupler TLP521-4 and rectifier bridge stack B1-rectifier bridge stack B5, 2 pin that 7 pin of external power source interface J1 connect electric capacity S5 and 2 pin of rectifier bridge stack B1 are connected the positive pole of diode diode D1 simultaneously, 1 pin of electric capacity S5 connects the earth, 1 pin of rectifier bridge stack B1 connects 3 pin of power output end power interface J2, 3 pin of rectifier bridge stack B1 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B1 connect 2 pin of power interface J2, the negative pole contact resistance R34 of diode D1, one end of resistance R 35, the other end of resistance R 34 connects the negative pole of diode D5, the anodal contact resistance R24 of diode D5, 7 pin of photoelectrical coupler U9 and the negative pole of diode D12, the other end contact resistance R36 of resistance R 35, the other end contact resistance R24 of resistance R 36, 8 pin of photoelectrical coupler U9, 2 pin of external power source interface J1 and the positive pole of diode D12, 2 pin that 6 pin of external power source interface J1 connect electric capacity S4 and 2 pin of rectifier bridge stack B2 are connected the positive pole of diode D2 simultaneously, 1 pin of electric capacity S4 connects the earth, 1 pin of rectifier bridge stack B2 connects 3 pin of power interface J2, 3 pin of rectifier bridge stack B2 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B2 connect 2 pin of power interface J2, the negative pole contact resistance R32 of diode D2, one end of resistance R 31, the other end of resistance R 31 connects the negative pole of diode D6, the anodal contact resistance R23 of diode D6, 5 pin of photoelectrical coupler U9 and the negative pole of diode D11, the other end contact resistance R34 of resistance R 32, the other end contact resistance R23 of resistance R 33, 6 pin of photoelectrical coupler U9, 2 pin of external power source interface J1 and the positive pole of diode D11, 2 pin that 5 pin of external power source interface J1 connect electric capacity S3 and 2 pin of rectifier bridge stack B3 are connected the positive pole of diode D3 simultaneously, 1 pin of electric capacity S3 connects the earth, 1 pin of rectifier bridge stack B3 connects 3 pin of power interface J2, 3 pin of rectifier bridge stack B3 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B3 connect 2 pin of power interface J2, the negative pole contact resistance R29 of diode D3, one end of resistance R 28, the other end of resistance R 28 connects the negative pole of diode D7, the anodal contact resistance R22 of diode D7, 3 pin of photoelectrical coupler U9 and the negative pole of diode D10, the other end contact resistance R30 of resistance R 29, the other end contact resistance R22 of resistance R 30, 4 pin of photoelectrical coupler U9, 2 pin of external power source interface J1 and the positive pole of diode D10, 2 pin that 4 pin of external power source interface J1 connect electric capacity S2 and 2 pin of rectifier bridge stack B4 are connected the positive pole of diode D4 simultaneously, 1 pin of electric capacity S2 connects the earth, 1 pin of rectifier bridge stack B4 connects 3 pin of power interface J2, 3 pin of rectifier bridge stack B4 connect 2 pin of external power source interface J1, 4 pin of rectifier bridge stack B4 connect 2 pin of power interface J2, the negative pole contact resistance R25 of diode D4, one end of resistance R 26, the other end of resistance R 25 connects the negative pole of diode D8, the anodal contact resistance R21 of diode D8, the negative pole of 1 pin of photoelectrical coupler U9 and diode diode D9, the other end contact resistance R27 of resistance R 26, the other end contact resistance R21 of resistance R 27, 2 pin of photoelectrical coupler U9, the positive pole of 2 pin of external power source interface J1 and diode diode D9, 3 pin of external power source interface J1 connect 2 pin of electric capacity S1 and 2 pin of rectifier bridge stack B5,1 pin of electric capacity S2 connects the earth, 1 pin of rectifier bridge stack B5 connects 3 pin of power interface J2,3 pin of rectifier bridge stack B5 connect 2 pin of external power source interface J1, and 4 pin of rectifier bridge stack B5 connect 2 pin of power interface J2, 15,13,11, the 9 pin ground connection of photoelectrical coupler U9,16 pin of photoelectrical coupler U9 connect 58 pin and the resistance R 20 of master controller chip U1,14 pin of photoelectrical coupler U9 connect 57 pin and the resistance R 19 of master controller chip U1,12 pin of photoelectrical coupler U9 connect 56 pin and the resistance R 18 of master controller chip U1, and 10 pin of photoelectrical coupler U9 connect 55 pin and the resistance R 17 of master controller chip U1.

3. a kind of novel lane control alarming device according to claim 1, is characterized in that, described feedback module (11) comprises driving central control unit, driver element, relay; 85 pin contact resistance R42 one end of Master control chip STM32F103VCT6T U1, resistance R 42 connects 2 pin that relay drives chip ULN2007U7, relay drives 15 pin of chip U7 to connect the input end of relay resistance R E1, the output terminal of resistance R E1 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 2 pin that connect feedback interface J8; 84 pin contact resistance R43 one end of master controller chip U1, resistance R 43 connects 3 pin that relay drives chip U7, relay drives the input end of the 14 pin contact resistance RE2 of chip U7, the output terminal of resistance R E2 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 3 pin that connect feedback interface J8; 83 pin contact resistance R44 one end of master controller chip U1, resistance R 44 connects 4 pin that relay drives chip U7, relay drives the input end of the 13 pin contact resistance RE3 of chip U7, the output terminal of resistance R E3 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 4 pin that connect feedback interface J8; 82 pin contact resistance R45 one end of master controller chip U1, resistance R 45 connects 5 pin that relay drives chip U7, relay drives the input end of the 12 pin contact resistance RE4 of chip U7, the output terminal of resistance R E4 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 5 pin that connect feedback interface J8; 81 pin contact resistance R46 one end of master controller chip U1, resistance R 46 connects 6 pin that relay drives chip U7, relay drives the input end of the 11 pin contact resistance RE5 of chip U7, the output terminal of resistance R E5 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 6 pin that connect feedback interface J8; 80 pin contact resistance R47 one end of master controller chip U1, resistance R 47 connects 7 pin that relay drives chip U7, relay drives the input end of the 10 pin contact resistance RE6 of chip U7, the output terminal of resistance R E6 has three ports, what one end connected is 1 pin of feedback interface J8, what the other end connected is 8 pin of feedback interface J8, and its selecting side is 7 pin that connect feedback interface J8.

4. a kind of novel lane control alarming device according to claim 1, is characterized in that, described DC-DC module (10) comprises DC-DC switching type power supply chip, fly-wheel diode, I-shaped inductance, filter capacitor; 1 pin of 24V direct supply interface J7 connects the positive pole of C16, C27 and 1 pin of voltage transitions chip LM2596U6,3, the 5 pin ground connection of voltage transitions chip U6,2 pin of voltage transitions chip U6 connect one end of diode D13 and L1, and 4 pin of voltage transitions chip U6 connect the positive pole of L1, C15, VCC5 and C28.

5. a kind of novel lane control alarming device according to claim 1, it is characterized in that, described central control module (1) comprises K switch EY1, K switch EY1 one end ground connection, the other end connects 78 pin of master controller chip U1 and one end of C13, the other end ground connection of C13; Reset switch resistance R ST1 one end ground connection, the other end connects 14 pin of master controller chip U1 and one end of C6, the other end ground connection of C6; 12 pin contact resistance R2, the C1 of master controller chip U1 and 3 pin of Y1,4 pin of Y1 connect C1, C2 and ground connection, and 13 pin of master controller chip U1 connect 1 pin of C2, resistance R 2 and Y1; 19,20,10,27,99,74, the 49 pin ground connection of master controller chip U1; 21,22 pin of master controller chip U1 connect one end of C4, C3, C30, L2, the other end ground connection of C4, C3, C30; 6 pin of master controller chip U1 connect one end of VCC33 and C5, the other end ground connection of C5; 50,70,100,28,11 pin of master controller chip U1 connect the positive pole of L2, C11, C10, C9, C8, C7 and C26, the minus earth of C11, C10, C9, C8, C7 and C26.

6. a kind of novel lane control alarming device according to claim 1, is characterized in that, described plate carries dial-up module (2) and comprises dial-up module toggle switch SW1,1,2,3,4,5,6,7, the 8 pin ground connection of dial-up module toggle switch SW1; 16 pin of toggle switch SW1 connect 39 pin of master controller chip U1 and 9 pin of the plug-in resistance RS that runs in; 15 pin of toggle switch SW1 connect 40 pin of master controller chip U1 and 8 pin of connecting resistance RS; 14 pin of toggle switch SW1 connect 41 pin of master controller chip U1 and 7 pin of connecting resistance RS; 13 pin of toggle switch SW1 connect 42 pin of master controller chip U1 and 6 pin of connecting resistance RS; 12 pin of toggle switch SW1 connect 43 pin of master controller chip U1 and 5 pin of connecting resistance RS; 11 pin of toggle switch SW1 connect 44 pin of master controller chip U1 and 4 pin of connecting resistance RS; 10 pin of toggle switch SW1 connect 45 pin of master controller chip U1 and 3 pin of connecting resistance RS; 9 pin of toggle switch SW1 connect 46 pin of master controller chip U1 and 2 pin of connecting resistance RS.

7. a kind of novel lane control alarming device according to claim 1, is characterized in that, described data memory module (15) comprises FASH storage chip and isolation circuit; 1 pin of storage chip W25Q64DWSSIU2 connects 30 pin of Master control chip master controller chip U1; 2 pin of storage chip U2 connect 31 pin of master controller chip U1; 3 pin of storage chip U2 connect 32 pin of master controller chip U1; 5 pin of storage chip U2 connect 33 pin of master controller chip U1; 6 pin of storage chip U2 connect 34 pin of master controller chip U1; 7 pin of storage chip U2 connect 35 pin of master controller chip U1.

8. a kind of novel lane control alarming device according to claim 1, is characterized in that, the quick-fried sudden strain of a muscle module of described red indigo plant (5) comprises level conversion triode, driven MOS pipe; The 2 pin contact resistance R39 of master controller chip U1, resistance R 39 connects the base stage of level conversion triode Q1,2 pin of the collector contact resistance R38 of triode Q1 and driven MOS die FDS9945, master controller chip metal-oxide-semiconductor drives 7,8 pin of chip to connect 2 pin of the quick-fried sudden strain of a muscle pin of red indigo plant J9 simultaneously; The 1 pin contact resistance R42 of master controller chip U1, the base stage of resistance R 41 connecting triode Q2, the collector contact resistance R40 of triode Q2 and master controller chip metal-oxide-semiconductor drive 4 pin of chip, and master controller chip metal-oxide-semiconductor drives 5,6 pin of chip to connect 3 pin of the quick-fried sudden strain of a muscle pin of red indigo plant J9 simultaneously.

9. a kind of novel lane control alarming device according to claim 1, it is characterized in that, described audio frequency power amplifier module (3) comprises input filter, power amplifier integrate circuit, output duplicate removal circuit, 1 pin of audio frequency power amplifier chip LM1875U8 connects one end of capacitor C electric capacity S2, capacitor C S7 and resistance R electric capacity S3; Other end contact resistance R electric capacity S3, one end of resistance R electric capacity S4 and the positive pole of capacitor C electric capacity S3 of resistance R electric capacity S2; The other end contact resistance R electric capacity S1 of capacitor C electric capacity S2 and one end of capacitor C electric capacity S10, the other end of resistance R electric capacity S1 connects 29 pin of master controller chip U1; The 5 pin contact resistance R electric capacity S4 of audio frequency power amplifier chip U8, positive pole and the 28V DC voltage of capacitor C S5, capacitor C electric capacity S4; The 2 pin contact resistance RS6 of audio frequency power amplifier chip U8, one end of resistance R S7, the other end of resistance R S6 connects the positive pole of capacitor C S8, the minus earth of capacitor C S8; 4 pin contact resistance RS7, the resistance R S5 of audio frequency power amplifier chip U8 and the positive pole of capacitor C S6, resistance R S5 connects capacitor C S9, capacitor C S9 ground connection, the negative pole of capacitor C S6 connects 1 pin of J electric capacity S2, the 2 pin ground connection of J electric capacity S2.

10. a kind of novel lane control alarming device according to claim 1, is characterized in that, described resistance R electric capacity S485 communication module (13) comprises that 485 circuits drive chip, decoupling capacitor, 232 level transferring chip; 11 pin of the 68 pin contact resistance R electric capacity S232MAX202A level transferring chip U5 of Master control chip master controller chip U1 are (obstructed! ), 14 pin of level transferring chip U5 connect 2 pin of communication interface JCOM1; 69 pin of master controller chip U1 connect 12 pin of level transferring chip U5, and 13 pin of level transferring chip U5 connect 1 pin of communication interface JCOM1; 1 pin of the 26 pin contact resistance R electric capacity S485 conversion chip MAX487E U4 of master controller chip U1,2 pin of the 7 pin contact resistance R37 of conversion chip U4 and 1 pin of diode TV electric capacity S1, diode TV electric capacity S3 are also connected 4 pin of communication interface JCOM1 simultaneously, 1 pin of diode TV electric capacity S3 connects the earth, and resistance R 37 connects 1 pin of JUMPE resistance R; 24 pin of master controller chip U1 connect 2,3 pin of conversion chip U4,6 pin of conversion chip U4 connect 2 pin of diode TV electric capacity S1, the 2 pin whiles of 1 pin of diode TV electric capacity S2 and JUMPE resistance R are also connected 5 pin of communication interface JCOM1, and 2 pin of diode TV electric capacity S2 connect the earth.

11. a kind of novel lane control alarming devices according to claim 1, is characterized in that, described red blue flashing light wiring board module (6) comprises LED lamp pearl, current-limiting resistance, the 1 pin contact resistance RGA1 of INPUT, resistance R GA2, resistance R GA3, resistance R GA4, resistance R GA5, resistance R GA6, resistance R GA7, one end of resistance R GA8, resistance R GA1, resistance R GA2, resistance R GA3, resistance R GA4, resistance R GA5, resistance R GA6, resistance R GA7, the other end of the resistance R GA8 LED light emitting diode D_A1 that is connected in parallel, LED light emitting diode D_A8, LED light emitting diode D_A15, LED light emitting diode D_A22, LED light emitting diode D_A29, LED light emitting diode D_A36, the positive pole of LED light emitting diode D_A43, the negative pole of LED light emitting diode D_A1 connects the positive pole of LED light emitting diode D_A2, the negative pole of LED light emitting diode D_A8 connects the positive pole of LED light emitting diode D_A9, the negative pole of LED light emitting diode D_A15 connects the positive pole of LED light emitting diode D_A16, the negative pole of LED light emitting diode D_A22 connects the positive pole of LED light emitting diode D_A23, the negative pole of LED light emitting diode D_A29 connects the positive pole of LED light emitting diode D_A30, the negative pole of LED light emitting diode D_A36 connects the positive pole of LED light emitting diode D_A37, and the negative pole of LED light emitting diode D_A43 connects the positive pole of LED light emitting diode D_A44, LED light emitting diode D_A2, LED light emitting diode D_A9, LED light emitting diode D_A16, LED light emitting diode D_A23, LED light emitting diode D_A30, LED light emitting diode D_A37, the negative pole of the LED light emitting diode D_A44 LED light emitting diode D_A3 that is connected in parallel, LED light emitting diode D_A10, LED light emitting diode D_A17, LED light emitting diode D_A24, LED light emitting diode D_A31, LED light emitting diode D_A38, the positive pole of LED light emitting diode D_A45, the negative pole of LED light emitting diode D_A3 connects the positive pole of LED light emitting diode D_A4, the negative pole of LED light emitting diode D_A10 connects the positive pole of LED light emitting diode D_A11, the negative pole of LED light emitting diode D_A17 connects the positive pole of LED light emitting diode D_A18, the negative pole of LED light emitting diode D_A24 connects the positive pole of LED light emitting diode D_A25, the negative pole of LED light emitting diode D_A31 connects the positive pole of LED light emitting diode D_A32, the negative pole of LED light emitting diode D_A38 connects the positive pole of LED light emitting diode D_A39, the negative pole of LED light emitting diode D_A45 connects the positive pole of LED light emitting diode D_A46, LED light emitting diode D_A4, LED light emitting diode D_A11, LED light emitting diode D_A18, LED light emitting diode D_A25, LED light emitting diode D_A32, LED light emitting diode D_A39, the negative pole of the LED light emitting diode D_A46 LED light emitting diode D_A5 that is connected in parallel, LED light emitting diode D_A12, LED light emitting diode D_A19, LED light emitting diode D_A26, LED light emitting diode D_A33, LED light emitting diode D_A40, the positive pole of LED light emitting diode D_A47, the negative pole of LED light emitting diode D_A5 connects the positive pole of LED light emitting diode D_A6, the negative pole of LED light emitting diode D_A6 connects the positive pole of LED light emitting diode D_A7, the negative pole of LED light emitting diode D_A12 connects the positive pole of LED light emitting diode D_A13, the negative pole of LED light emitting diode D_A13 connects the positive pole of LED light emitting diode D_A14, the negative pole of LED light emitting diode D_A19 connects the positive pole of LED light emitting diode D_A20, the negative pole of LED light emitting diode D_A20 connects the positive pole of LED light emitting diode D_A21, the negative pole of LED light emitting diode D_A26 connects the positive pole of LED light emitting diode D_A27, the negative pole of LED light emitting diode D_A27 connects the positive pole of LED light emitting diode D_A28, the negative pole of LED light emitting diode D_A33 connects the positive pole of LED light emitting diode D_A34, the negative pole of LED light emitting diode D_A34 connects the positive pole of LED light emitting diode D_A35, the negative pole of LED light emitting diode D_A40 connects the positive pole of LED light emitting diode D_A41, the negative pole of LED light emitting diode D_A41 connects the positive pole of LED light emitting diode D_A42, the negative pole of LED light emitting diode D_A47 connects the positive pole of LED light emitting diode D_A48, the negative pole of LED light emitting diode D_A48 connects the positive pole of LED light emitting diode D_A49, the other end of resistance R GA8 connects the positive pole of LED light emitting diode D_A50, the negative pole of LED light emitting diode D_A50 connects the positive pole of LED light emitting diode D_A51, the negative pole of LED light emitting diode D_A51 connects the positive pole of LED light emitting diode D_A52, the negative pole of LED light emitting diode D_A52 connects the positive pole of LED light emitting diode D_A53, and the negative pole of LED light emitting diode D_A53 connects the positive pole of LED light emitting diode D_A54, 2 pin of INPUT connect the negative pole of LED light emitting diode D_A7, LED light emitting diode D_A14, LED light emitting diode D_A28, LED light emitting diode D_A35, LED light emitting diode D_A42, LED light emitting diode D_A49, LED light emitting diode D_A54.

12. a kind of novel lane control alarming devices according to claim 1, is characterized in that, described LED wiring board module (7) comprises LED lamp pearl, current-limiting resistance; The 1 pin contact resistance RGC1 of external power source interface J1, one end of resistance R GC2, the other end of resistance R GC1 connects the positive pole of LED lamp pearl lamp pearl DGC1, the positive pole of the negative pole connecting lamp pearl DGC2 of LED lamp pearl lamp pearl DGC1, the positive pole of the negative pole connecting lamp pearl DGC3 of lamp pearl DGC2, the positive pole of the negative pole connecting lamp pearl DGC4 of lamp pearl DGC3, the positive pole of the negative pole connecting lamp pearl DGC6 of lamp pearl DGC5, the positive pole of the negative pole connecting lamp pearl DGC7 of lamp pearl DGC6; One end of the other end contact resistance RGC3 of resistance R GC2, the other end of resistance R GC3 connects the negative pole of DZ1, the anodal contact resistance RGC4 of DZ1 and the positive pole of lamp pearl DGC8, the positive pole of the negative pole connecting lamp pearl DGC9 of lamp pearl DGC8, the positive pole of the negative pole connecting lamp pearl DGC10 of lamp pearl DGC9; 2 pin connecting lamp pearl DGC7, the negative pole of lamp pearl DGC10 and the other end of resistance R GC4 of external power source interface J1.