CN207936916U - Motor vehicle gabarit length measuring system for mobile testing line - Google Patents
Motor vehicle gabarit length measuring system for mobile testing line Download PDFInfo
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- CN207936916U CN207936916U CN201820177706.9U CN201820177706U CN207936916U CN 207936916 U CN207936916 U CN 207936916U CN 201820177706 U CN201820177706 U CN 201820177706U CN 207936916 U CN207936916 U CN 207936916U
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Abstract
The utility model provides a kind of motor vehicle gabarit length measuring system for mobile testing line, belongs to motor vehicle testing equipment field, solves the problems, such as that measurement efficiency is low, time-consuming and human cost is high existing for current manual measurement mode.Including power module, gabarit linear measure longimetry card, several to laser-correlation pipe, signal lamp, gate and host computer;The power module and gabarit linear measure longimetry card, it is several laser-correlation pipe, signal lamp and gate are all connected with, and for for gabarit linear measure longimetry card, several power to laser-correlation pipe, signal lamp and gate;LASER Discharge Tube and laser pickoff in several pipes to laser-correlation are relatively arranged on the both sides of mobile testing line check bit, and the cross bar of gate is set to the check bit detection inlet of motor vehicle;The gabarit linear measure longimetry card includes micro controller module, ethernet module, switching signal output module, DC DC power modules, analog signal input module, digital signal input module and working station indicator module.
Description
Technical field
The utility model is related to motor vehicle testing equipment technical field more particularly to a kind of machines for mobile testing line
Motor-car gabarit length measuring system.
Background technology
In recent years, there is rapid growth in vehicles number, 12,190,000 when the quantity of motor vehicle was by 2003, surged
Till now 300,000,000.Traffic at present checks the mechanisms such as mobile testing line when the gabarit length to motor vehicle measures, such as
When measuring wheelbase, front overhang length, rear overhang length and the vehicle commander of motor vehicle, it is all made of artificial method of measuring and realizes.This kind of measurement method is deposited
The shortcomings of measurement efficiency is low, time-consuming, human cost is high, the growth requirement of present society is not adapted to.
Country issues in succession in recent years《Road vehicle contour dimension, axle load and quality limit value》National standard
GB1589-2014 and《Automobile, trailer and truck combination contour dimension, axle load and quality limit value》Standard GB/T 1589-
2016, these standards define contour dimension, axle load and the quality limit value of the motor vehicles such as automobile, trailer, are the portions such as road administration, traffic control
Door administers the basic fundamental foundation that Road Overload transfinites.But existing artificial measure cannot be satisfied this national standard, therefore, anxious
Need a kind of system that all automatic measurement being carried out to the gabarit length of motor vehicle according to national standards.
Invention content
The purpose of this utility model is that using manual type measurement motor vehicle gabarit length, there are measurement efficiencies at present for solution
Technical problem low, time-consuming and human cost is high provides a kind of motor vehicle gabarit linear measure longimetry for mobile testing line
System.
In order to solve the above technical problems, the technical solution adopted in the utility model is:
A kind of motor vehicle gabarit length measuring system for mobile testing line comprising power module, gabarit length
It is measurement card, several to laser-correlation pipe, signal lamp, gate and host computer;It is the power module and gabarit linear measure longimetry card, several
Laser-correlation pipe, signal lamp and gate are all connected with, and for for gabarit linear measure longimetry card, several to laser-correlation pipe, signal
Lamp and gate power supply;LASER Discharge Tube and laser pickoff in several pipes to laser-correlation are relatively arranged on mobile testing line
The cross bar of the both sides of check bit, gate is set to the check bit detection inlet of motor vehicle;The gabarit linear measure longimetry card includes
Micro controller module, ethernet module, switching signal output module, DC-DC power module, analog signal input module, number
Signal input module and working station indicator module, wherein:
The power input of the DC-DC power module and the power output end of power module connect, and DC-DC power source mould
Block is used to the voltage of power module being converted to first voltage, second voltage and tertiary voltage, the first electricity of DC-DC power module
Pressure output end is connect with the power input of the power input of micro controller module and digital signal input module respectively, DC-
The second voltage output end of DC power module is connect with the power input of analog signal input module, DC-DC power module
Tertiary voltage output end is connect with the power input of switching signal output module;Several signals to laser-correlation pipe are defeated
Outlet passes through the signal input part of input/output connecting terminal and analog signal input module and number signal input module
Signal input part connects, the signal output end of the signal output end of analog signal input module and number signal input module with
The signal input part of micro controller module connects, the signal of the signal output end and switching signal output module of micro controller module
Input terminal is connected with the signal input part of working station indicator module, the network port and ethernet module of micro controller module
Connection, switching signal output module are all connected with signal lamp and gate;The analog signal input module and digital signal input
Module carries out shaping and filtering for acquiring several switching signals sent out to laser-correlation pipe, and to the switching signal of acquisition,
With processing for the identifiable signal of micro controller module, micro controller module is used to input mould from analog signal according to reception
It is the wheelbase of distance computation motor vehicle between block or the signal and pre-stored laser-correlation pipe of digital signal input module, preceding
Outstanding length, rear overhang length and vehicle commander, and result of calculation is sent to host computer by ethernet module, micro controller module is additionally operable to root
Control instruction is generated according to result of calculation, and control instruction is sent to switching signal output module and working station indicator mould
Block, switching signal output module is used to control the action of signal lamp and gate according to the control instruction of micro controller module, described
Working station indicator module is used to show the current work of gabarit linear measure longimetry card according to the control instruction of micro controller module
State.
Optionally, the gabarit linear measure longimetry card further includes RS485/RS232 interface modules and/or CAN interface module, institute
It states RS485/RS232 interface modules to connect with the first voltage output end of micro controller module and DC-DC power module respectively, institute
It states CAN interface module to connect with the second voltage output end of micro controller module and DC-DC power module respectively, RS485/
RS232 interface module and/or CAN interface module are connect by input/output connecting terminal with host computer;RS485/RS232 connects
Mouth mold block and/or CAN interface module are used to receive the result of calculation of micro controller module and result of calculation are sent to host computer,
And the configuration-direct for receiving host computer, and configuration-direct is sent to micro controller module, so that micro controller module root
Parameter is configured according to configuration-direct.
Optionally, the gabarit linear measure longimetry card further includes usb interface module, usb interface module respectively with microcontroller
The signal output end of module is connected with the first voltage output end of DC-DC power module;Usb interface module is for providing from micro-control
Device module processed downloads the interface of result of calculation.
Optionally, it is described it is several include laser-correlation pipe, several that several are used to measure wheelbase to laser-correlation pipe
A laser-correlation pipe and several laser-correlation pipes grown for measuring rear overhang for measuring front overhang length;For measuring wheelbase
The height of laser-correlation pipe, at a distance of 8-12cm, is protected with ground before the height and motor vehicle of the laser-correlation pipe for measuring front overhang length
The height of dangerous thick stick is corresponding, opposite with the height of motor vehicle rear bumper for measuring the height of laser-correlation pipe of rear overhang length
It answers.
The utility model has the beneficial effects that:
By the way that power module, gabarit linear measure longimetry card, several to laser-correlation pipe, signal lamp, gate and host computer is arranged,
Can to motor vehicle wheelbase, front overhang is long, rear overhang is long and vehicle commander carries out automatic measurement, can not only improve that measurement efficiency is low, reduces
Duration is measured, and human cost height can be saved.Therefore, compared with the background art, the utility model have measurement efficiency it is high,
The short advantages such as low with human cost of required time of measuring.
Description of the drawings
Fig. 1 is the composition schematic diagram of Tthe utility model system.
Fig. 2 is the structural schematic diagram of gabarit linear measure longimetry card in Fig. 1.
Fig. 3 is the circuit composition schematic diagram of micro controller module in Fig. 2.
Fig. 4 is the circuit composition schematic diagram of ethernet module in Fig. 2.
Fig. 5 is the circuit composition schematic diagram of switching signal output module in Fig. 2.
Fig. 6 is the circuit composition schematic diagram of DC-DC power module in Fig. 2.
Fig. 7 a are a part of circuit composition schematic diagrams of analog signal input module in Fig. 2.
Fig. 7 b are another part circuit composition schematic diagrams of analog signal input module in Fig. 2.
Fig. 7 c are the another partial circuit composition schematic diagrams of analog signal input module in Fig. 2.
Fig. 8 a are a part of circuit composition schematic diagrams of digital signal input module in Fig. 2.
Fig. 8 b are another part circuit composition schematic diagrams of digital signal input module in Fig. 2.
Fig. 8 c are the another partial circuit composition schematic diagrams of digital signal input module in Fig. 2.
Fig. 8 d are another partial circuit composition schematic diagrams of digital signal input module in Fig. 2.
Fig. 8 e are another partial circuit composition schematic diagrams of digital signal input module in Fig. 2.
Fig. 9 is the circuit composition schematic diagram of working station indicator module in Fig. 2.
Figure 10 is the circuit composition schematic diagram of RS485/RS232 interface modules and CAN interface module in Fig. 2.
Figure 11 is the circuit composition schematic diagram of usb interface module in Fig. 2.
Figure 12 is schematic diagram when measuring motor vehicle speed in the utility model.
Figure 13 is schematic diagram when measuring motor vehicle intercept in the utility model.
Figure 14 is schematic diagram when measuring motor vehicle wheelbase in the utility model.
Figure 15 is schematic diagram when measurement motor vehicle front overhang is long in the utility model.
Figure 16 is schematic diagram when measurement motor vehicle rear overhang is long in the utility model.
Specific implementation mode
The utility model is described in further detail below in conjunction with drawings and examples.
As depicted in figs. 1 and 2, the motor vehicle gabarit length measuring system for mobile testing line in the present embodiment,
Including power module, gabarit linear measure longimetry card, several to laser-correlation pipe, signal lamp, gate and host computer;The power module
With gabarit linear measure longimetry card, it is several laser-correlation pipe, signal lamp and gate are all connected with, and for for gabarit linear measure longimetry card,
It is several to power to laser-correlation pipe, signal lamp and gate;LASER Discharge Tube and laser pickoff in several pipes to laser-correlation
The both sides of mobile testing line check bit are relatively arranged on, the cross bar of gate is set to the check bit detection inlet of motor vehicle;
The gabarit linear measure longimetry card includes micro controller module 1, ethernet module 2, switching signal output module 3, DC-DC power source mould
Block 4, analog signal input module 5, digital signal input module 6 and working station indicator module 10, wherein:The DC-DC
The power input of power module 4 and the power output end of power module connect, and DC-DC power module 4 is used for power supply mould
The voltage of block is converted to first voltage+3.3V, second voltage+5V and tertiary voltage+12V, the first electricity of DC-DC power module 4
Power input of the pressure+3.3V output ends respectively with the power input of micro controller module 1 and digital signal input module 6 connects
It connects, the second voltage+5V output ends of DC-DC power module 4 are connect with the power input of analog signal input module 5, DC-DC
Tertiary voltage+12V the output ends of power module 4 are connect with the power input of switching signal output module 3;It is described several to swashing
Light to penetrate the signal output end of pipe by the signal input part of input/output connecting terminal and analog signal input module 5 and
The signal input part of digital signal input module 6 connects, signal output end and the digital signal input of analog signal input module 5
The signal output end of module 6 is connect with the signal input part of micro controller module 1, the signal output end of micro controller module 1
It is connect with the signal input part of the signal input part of switching signal output module 3 and working station indicator module 10, microcontroller
The network port of device module 1 is connect with ethernet module 2, and switching signal output module 3 is all connected with signal lamp and gate;It is described
Analog signal input module 5 and digital signal input module 6 are used to acquire several switching signals for sending out laser-correlation pipe, and
Shaping and filtering are carried out to the switching signal of acquisition, with processing for 1 identifiable signal of micro controller module, micro controller module
1 for according to signal of the reception from analog signal input module 5 or digital signal input module 6 and pre-stored laser
Pass through ethernet module 2 to penetrating wheelbase, front overhang, rear overhang and the vehicle commander of the distance computation motor vehicle between pipe, and by result of calculation
It is sent to host computer, micro controller module 1 is additionally operable to generate control instruction according to result of calculation, and control instruction is sent to out
OFF signal output module 3 and working station indicator module 10, switching signal output module 3 are used for according to micro controller module 1
Control instruction control signal lamp and gate action, the working station indicator module 10 be used for according to micro controller module
1 control instruction shows the current working condition of gabarit linear measure longimetry card.
As shown in Fig. 2, the gabarit linear measure longimetry card further includes RS485/RS232 interface modules 7 and CAN interface module 8,
The RS485/RS232 interface modules 7 are defeated with the first voltage+3.3V of micro controller module 1 and DC-DC power module 4 respectively
Outlet connects, and second voltage+5V of the CAN interface module 8 respectively with micro controller module 1 and DC-DC power module 4 is exported
End connection;RS485/RS232 interface modules 7 and CAN interface module 8 are connect by input/output connecting terminal with host computer;
RS485/RS232 interface modules 7 and CAN interface module 8 are used to receive the result of calculation of micro controller module 1 and by result of calculations
It is sent to host computer, and the configuration-direct for receiving host computer, and configuration-direct is sent to micro controller module 1, so that
Micro controller module 1 configures parameter according to configuration-direct.
As shown in Fig. 2, the gabarit linear measure longimetry card further includes usb interface module 9, usb interface module 9 respectively with micro-control
The signal output end of device module 1 processed is connected with the first voltage+3.3V output ends of DC-DC power module 4;Usb interface module 9 is used
The interface of result of calculation is downloaded from micro controller module 1 in offer.
Wherein, power module can be accumulator;Or include the module of AC-DC power supply changeover devices, by 220V
Alternating current is converted to the voltage needed for each module work.Whether signal lamp is used to indicate currently has motor vehicle measuring,
Currently whether there are the different conditions that motor vehicle is measuring to pass through the different colours of signal lamp to distinguish.The utility model can
With according to the communication type of host computer, selection is ethernet module 2, RS485/RS232 interface modules 7 or CAN interface module
8 are communicated with host computer.
The utility model can select to be to pass through when measuring the gabarit length of motor vehicle according to the type of laser-correlation pipe
Analog signal input module 5 still acquires several switching signals sent out to laser-correlation pipe by digital signal input module 6.
As shown in figure 3, the micro controller module 1 includes microcontroller U1 (STM32F429IGT6), capacitance C1, capacitance
C2, capacitance C3, capacitance C4, capacitance C5, capacitance C6, capacitance C7, capacitance C8, capacitance C9, capacitance C10, capacitance C11, capacitance C12,
Capacitance C13, capacitance C14, capacitance C15, capacitance C16, capacitance C17, capacitance C18, capacitance C19, capacitance C20, capacitance C21, capacitance
C22, capacitance C23, resistance R3, resistance R4, resistance R12, resistance R13, resistance R14, resistance R15, resistance R16, resistance R17, crystalline substance
Shake X1, voltage monitor U2 (IMP811T), bipod contact pin P1, adjustable accurate shunt regulator U3 (TL431), magnetic bead L1 and
Interface P2, wherein:The pin 159 of microcontroller U1 connects with 3.3V power supplys (i.e. the first voltage output end of DC-DC power module)
Connect, the both ends of capacitance C1 are connect with the pin of microcontroller U1 159 and pin 158 respectively, the pin 149 of microcontroller U1 with
3.3V power supplys connect, and the both ends of capacitance C2 are connect with the pin of microcontroller U1 149 and pin 148 respectively, microcontroller U1's
Pin 136 is connect with 3.3V power supplys, and the both ends of capacitance C3 are connect with the pin of microcontroller U1 136 and pin 135 respectively, micro-control
The pin 171 and pin 172 of device U1 processed is connect with 3.3V power supplys, the both ends of the capacitance C4 pin with microcontroller U1 respectively
172 and ground connection, the both ends of resistance R3 respectively with the pin of microcontroller U1 166 and connect, the pin 127 of microcontroller U1
It is connect with 3.3V power supplys, one end of capacitance C7 is connect with the pin 127 of microcontroller U1, the other end, the microcontroller of capacitance C7
126 feet of U1 and one end of capacitance C5 are connected to ground;The other end of capacitance C5 is connect with the pin 125 of microcontroller U1, micro-control
The pin 114 of device U1 processed and one end of capacitance C9 are connect with 3.3V power supplys, the other end of capacitance C9 and 113 feet of microcontroller U1
It is connected to ground, the pin 103 of microcontroller U1 and one end of capacitance C13 are connect with 3.3V power supplys, the other end of capacitance C13 and micro-
102 feet of controller U1 are connected to ground, and the pin 91 of microcontroller U1 and one end of capacitance C16 are connect with 3.3V power supplys, capacitance
The other end of C16 and 90 feet of microcontroller U1 are connected to ground, the pin 49 of microcontroller U1 and one end and the 3.3V of capacitance C20
Power supply connects, the pin 48 of microcontroller U1 and the other end ground connection of capacitance C20, the pin 62 and capacitance C21 of microcontroller U1
One end connect with 3.3V power supplys, the pin 61 of the other end of capacitance C21 and microcontroller U1 are grounded, the pin of microcontroller U1
One end of 72 and capacitance C22 is connect with 3.3V power supplys, and the other end of capacitance C22 and the pin 71 of microcontroller U1 are grounded, micro-control
The pin 82 of device U1 processed and one end of capacitance C23 are connect with 3.3V power supplys, the other end of capacitance C23 and one end of capacitance C19 with
Ground connects, and the other end of capacitance C19 is connect with the pin 81 of microcontroller U1, and one end of resistance R4 is connect with 3.3V power supplys, electricity
The other end of resistance R4 is connect with one end of the pin 6 of microcontroller U1 and capacitance C6, the other end ground connection of capacitance C6, microcontroller
The pin 15 of U1 and one end of capacitance C8 are connect with 3.3V power supplys, the other end of capacitance C8 and the pin 14 of microcontroller U1 and ground
Connection, the pin 23 of microcontroller U1 and one end of capacitance C10 are connect with 3.3V power supplys, the other end and microcontroller of capacitance C10
The pin 22 of device U1 is connected to ground, and one end of capacitance C12 is connect with the pin 29 of the pin 1 of crystal oscillator X1 and microcontroller U1, electricity
The pin 4 for holding the other end of C12,2 end of pin of crystal oscillator X1 and crystal oscillator X1 is grounded, one end of the pin 3 and resistance R12 of crystal oscillator X1
It is connected with one end of capacitance C11, the other end of resistance R12 is connect with the pin 30 of microcontroller U1, another termination of capacitance C11
Ground, the pin 4 of voltage monitor U2, one end of capacitance C15, one end of one end of resistance R13 and resistance R14 and 3.3V power supplys connect
It connects, the other end of capacitance C15 is grounded after being connect with 1 foot of voltage monitor U2, the pin 2 and resistance R13 of voltage monitor U2
The other end connect with the pin 31 of microcontroller U1, the pin 3 of voltage monitor U2 connect with the other end of resistance R14 after with
The pin 2 of contact pin P1 connects, and the pin 1 of contact pin P1 is grounded, and one end of resistance R15 is connect with 3.3V power supplys, and resistance R15's is another
End is connect with one end of resistance R16, the other end of resistance R16, the pin 2 of adjustable accurate shunt regulator U3 and pin 1, electricity
One end of resistance R17 is connect with the pin 38 of microcontroller U1, the other end of resistance R17 and adjustable accurate shunt regulator U3's
Pin 3 is grounded, and one end of capacitance C14 and the pin 36 of microcontroller U1 connect with 3.3V power supplys, the other end of capacitance C14 and micro-
The pin 37 of controller U1 is connected to ground, and one end of magnetic bead L1 is connect with 3.3V power supplys, the other end of magnetic bead L1, capacitance C17
One end and one end of capacitance C18 are connect with the pin 39 of microcontroller U1, the other end of the other end and capacitance C18 of capacitance C17
It is connected to ground, the pin 1 of interface P2 is connect with 3.3V power supplys, and the pin 2 of interface P2 is grounded, the pin 3 and microcontroller of interface P2
The pin 31 of device U1 connects, and 4 feet of interface P2 are connect with the pin 161 of microcontroller U1, the pin 5 and microcontroller of interface P2
The pin 137 of U1 connects, and the pin 6 of interface P2 is connect with the pin 124 of microcontroller U1.
In micro controller module 1, capacitance C1, capacitance C2, capacitance C3, capacitance C4, capacitance C5, capacitance C6, capacitance C7, capacitance
C8, capacitance C9, capacitance C13, capacitance C14, capacitance C16, capacitance C20, capacitance C21, capacitance C22 and capacitance C23 are ceramic electrical
Hold, they are filtered as the VDD that shunt capacitance is microcontroller U1.Master oscillators of the 8MHz crystal oscillators X1 as microcontroller U1,
Capacitance C11 and capacitance C12 is crystal oscillator load capacitance, and adjustable accurate shunt regulator U3 uses TL431 chips to join as simulation
Examine voltage source.Magnetic bead L1, capacitance C17 and capacitance C18 are that microcontroller U1 artificial circuit parts carry out power filter.Voltage monitoring
Device U2 uses IMP811T, provides electrification reset and hand-reset function for microcontroller U1, bipod contact pin P1 is 2.54mm
The manual reset pin of voltage monitor U2 is drawn, artificial reset function is provided for microcontroller U1 by 2PIN contact pins.Micro-control
Device module 1 processed uses interface P2 as emulation download interface.
As shown in figure 4, the ethernet module 2 includes Ethernet chip U4 (DP83848IVV), resistance R21, electricity
Hinder R23, resistance R26, resistance R27, resistance R28, resistance R29, resistance R30, resistance R31, resistance R32, resistance R33, resistance
R34, resistance R36, crystal oscillator Y1 (50Hz), capacitance C28, capacitance C29, capacitance C30, capacitance C31, capacitance C32, capacitance C33, capacitance
C34, capacitance C35, capacitance C36, transformer P3 (HR911105A RJ45), resistance R18, resistance R19, resistance R20, resistance R22,
Resistance R24, resistance R25, resistance R35, resistance R37, capacitance C24, capacitance C25, capacitance C26, capacitance C27, electrolytic capacitor CP1,
Resistance R5, resistance R6, resistance R7, resistance R8, resistance R9, resistance R10 and resistance R11, wherein:Ethernet chip U4's draws
Foot 2 is connect with one end of resistance R5, and the other end of resistance R5 is connect with the pin 80 of microcontroller U1, Ethernet chip U4
Pin 3 connect with one end of resistance R6, the other end of resistance R6 is connect with the pin 92 of microcontroller U1, Ethernet interface core
The pin 4 of piece U4 is connect with one end of resistance R7, and the other end of resistance R7 is connect with the pin 93 of microcontroller U1, and Ethernet connects
The pin 6 of mouth chip U4 is connect with one end of resistance R21, and the other end of resistance R21 is hanging, the pin of Ethernet chip U4
43 connect with one end of resistance R8, and the other end of resistance R8 is connect with the pin 54 of microcontroller U1, Ethernet chip U4
Pin 44 connect with one end of resistance R9, the other end of resistance R9 is connect with the pin 55 of microcontroller U1, Ethernet interface
The pin 41 of chip U4 is connect with the pin 79 of microcontroller U1, the pin 39 of Ethernet chip U4 and the one of resistance R23
End connection, the other end of resistance R23 are connect with 3.3V power supplys, one end of the pin 42 and resistance R28 of Ethernet chip U4
Connection, the other end of resistance R28 is hanging, and the pin 40 of Ethernet chip U4 is connect with one end of resistance R31, resistance R31
Other end resistance R10 one end connection, the other end of resistance R10 connect with the pin 53 of microcontroller U1, Ethernet interface
The pin 31 of chip U4 is connect with the pin 33 of microcontroller U1, the pin 30 and microcontroller U1's of Ethernet chip U4
Pin 42 connects, and the pin 30 of Ethernet chip U4 also connect with one end of resistance R33, the other end of resistance R33 and
3.3V power supplys connect, and the pin 29 of Ethernet chip U4 is connect with the pin 31 of microcontroller U1, Ethernet chip
The pin 7 of U4 is connect with one end of resistance R34, and the other end of resistance R34 is connect with the pin 4 of 3.3V power supplys and crystal oscillator Y1, brilliant
Shake Y1 pin 1 it is hanging, the pin 2 of crystal oscillator Y1 is grounded, and the pin 3 of crystal oscillator Y1 connects with the pin 34 of Ethernet chip U4
It connects, the pin 25 of Ethernet chip U4 is connect with one end of resistance R11, and the other end of resistance R11 is with microcontroller U1's
Pin 41 connects, and the pin 25 of Ethernet chip U4 is also connect with one end of capacitance C31, the other end ground connection of capacitance C31,
The pin 24 of Ethernet chip U4 is connect with one end of resistance R36, the other end ground connection of resistance R36, Ethernet interface core
Pin 37, pin 18 and the pin 23 of piece U4 is connect with one end of capacitance C32, the other end ground connection of capacitance C32, capacitance C33,
Capacitance C34 and capacitance C35 are in parallel with capacitance C32, and one end of capacitance C36 is connect with 3.3V power supplys, another termination of capacitance C36
Ground, the pin 17 of Ethernet chip U4 are connect with the pin 1 of transformer P3, pin 16 and the change of Ethernet chip U4
The pin 2 of depressor P3 connects, and too the pin 14 of network interface chip U4 is connect with the pin 3 of transformer P3, Ethernet chip
The pin 13 of U4 is connect with the pin 6 of transformer P3, and the pin 28 of Ethernet chip U4 is connect with one end of resistance R26,
The other end of resistance R26 is connect with 3.3V power supplys;The pin 27 of Ethernet chip U4 is connect with one end of resistance R27, electricity
The other end of resistance R27 is connect with 3.3V power supplys, and the pin 26 of Ethernet chip U4 is connect with one end of resistance R29, resistance
The other end of R29 is connect with 3.3V power supplys, and one end of resistance R30 is connect with the pin 21 of Ethernet chip U4, resistance R30
The other end connect with 3.3V power supplys, one end of resistance R32 is connect with the pin 20 of Ethernet chip U4, resistance R32's
The other end is connect with 3.3V power supplys, pin 22, pin 48 and the pin 32 of Ethernet chip U4 with 3.3V power supplys and electricity
Hold one end connection of C28, the other end ground connection of capacitance C28, capacitance C29 and capacitance C30 are in parallel with capacitance C28, Ethernet interface
Pin 19, pin 15, pin 47, pin 35 and the pin 36 of chip U4 is grounded, and one end and the 3.3V power supplys of resistance R18 connect
It connects, the other end of resistance R18 is connect with the pin 1 of transformer P3, one end of resistance R19 and one end of resistance R18, capacitance C24
One end connected with 3.3V power supplys, the other end of resistance R19 is connect with the pin 2 of transformer P3, another termination of capacitance C24
Ground, one end of resistance R24 are connect with the pin 3 of transformer P3, the other end of resistance R24 and one end of capacitance C27 and 3.3V electricity
Source connects, and the other end ground connection of capacitance C27, one end of resistance R25 is connect with the pin 6 of transformer P3, the other end of resistance R25
It is connect with one end of capacitance C27, one end of capacitance C25 is connect with the pin 5 of transformer P3, the other end ground connection of capacitance C25, electricity
The one end for holding C26 is connect with the pin 4 of transformer P3, the other end ground connection of capacitance C26, the pin 9 and resistance R20 of transformer P3
One end connection, the other end of resistance R20 connect with the pin 5 of transformer P3 and pin 4, the pin 10 and ether of transformer P3
The pin 28 of network interface chip U4 connects, and the pin 12 of transformer P3 is connect with one end of resistance R22, the other end of resistance R22
It being connect with the pin 5 of transformer P3 and pin 4, the pin 11 of transformer P3 is connect with the pin 26 of Ethernet chip U4,
One end of resistance R35 is connect with 3.3V power supply power supplys, and the other end of resistance R35 is connect with the pin 5 of transformer P3 and pin 4,
The anode of electrolytic capacitor CP1 is connect with the pin 5 of transformer P3 and pin 4, the cathode of electrolytic capacitor CP1 and the one of resistance R37
The pin 8 of end and transformer P3 connect, the other end ground connection of resistance R37.
Ethernet module 2 uses DP83848IVV chips as Ethernet chip U4.Ethernet chip U4 with
Connection type between microcontroller U1 is RMII patterns.50Hz crystal oscillators Y1 provides master clock source for Ethernet chip U4.
Pull-up resistor R23 has selected the interface between DP83848IVV chips and microcontroller U1 for RMII patterns.Resistance R33 is MDIO
Interface provides pull-up.Resistance R36 is that resistance is arranged in bias voltage.Capacitance C36 is 3.3V power filtering capacitors.Capacitance C32, capacitance
C33, capacitance C34 and capacitance C35 are the external capacitance of internal filter network.Capacitance C28, capacitance C29 and capacitance C30 are simulation and end
Mouth power filtering capacitor.Resistance R26 and resistance R27 is light emitting diode current-limiting resistance, is connected to the RJ45 sockets of transformer P3
LED light is respectively intended to instruction network transmission speed and connection status.Resistance R18, resistance R19, resistance R24, resistance R25 connections
To transformer P3, the differential signal between Ethernet chip U4 and transformer P3 provides impedance matching, capacitance C24 and electricity
Appearance C27 is resistance R18, resistance R19, resistance R24 and resistance R25 provide bypass filtering.After transformer P3, T+, T-, R+,
R- full-duplex differential signals are connected to the socket of transformer P3.Resistance R20, resistance R22 are that transformer P3 is internally integrated LED light
Current-limiting resistance.Capacitance C25 and capacitance C26 provides bypass filtering for the centre tap of transformer P3 internal transformers.
As shown in figure 5, the switching signal output module 3 includes Darlington transistor chip U6 (ULN2003AI), light-emitting diodes
Pipe D201, light emitting diode D202, light emitting diode D203, light emitting diode D204, resistance R45, resistance R46, resistance R47,
Resistance R48, resistance R201, resistance R202, resistance R203, resistance R204, Darlington transistor chip U5 (ULN2003AI), luminous two
Pole pipe D212, light emitting diode D213, light emitting diode D214, light emitting diode D215, light emitting diode D216, light-emitting diodes
Pipe D217, light emitting diode D218, resistance R38, resistance R39, resistance R40, resistance R41, resistance R42, resistance R43, resistance
R44, resistance R212, resistance R213, resistance R214, resistance R215, resistance R216, resistance R217, resistance R218, Darlington
Tube chip U8 (ULN2003AI), light emitting diode D205, light emitting diode D206, light emitting diode D207, light emitting diode
D208, light emitting diode D209, light emitting diode D210, light emitting diode D211, resistance R49, resistance R50, resistance R51, electricity
Hinder R52, resistance R53, resistance R54, resistance R55, resistance R205, resistance R206, resistance R207, resistance R208, resistance R209, electricity
Hinder R210, resistance R211, Darlington transistor chip U7 (ULN2003AI), light emitting diode D219, light emitting diode D220, resistance
R56, resistance R57, resistance R219 and resistance R220, wherein:The pin 1 and pin 2 of Darlington transistor chip U6 and microcontroller U1
Pin 129 connect, the pin 3 and pin 4 of Darlington transistor chip U6 connect with the pin 130 of microcontroller U1, Darlington transistor
The pin 5 and pin 6 of chip U6 is connect with the pin 131 of microcontroller U1, the pin 7 and microcontroller of Darlington transistor chip U6
The pin 132 of U1 connects, and the pin 8 of Darlington transistor chip U6 is grounded, and the pin 9 and 12V power supplys of Darlington transistor chip U6 are (i.e.
The tertiary voltage output end of DC-DC power module) connection, one end of resistance R45 and the pin 1 and pin of Darlington transistor chip U6
2 connections, the other end of resistance R45 are connect with the anode of light emitting diode D201, the cathode ground connection of light emitting diode D201, resistance
One end of R46 is connect with the pin 3 of Darlington transistor chip U6 and pin 4, and the other end of resistance R46 is with light emitting diode D202's
Anode connection, the cathode ground connection of light emitting diode D202, one end of resistance R47 and the pin 5 and pin 6 of Darlington transistor chip U6
Connection, the other end of resistance R47 are connect with the anode of light emitting diode D203, the cathode ground connection of light emitting diode D203, resistance
One end of R48 is connect with the pin 7 of Darlington transistor chip U6, and the other end of resistance R48 connects with the anode of light emitting diode D204
Connect, the cathode of light emitting diode D204 ground connection, one end of resistance R201 is connect with 12V power supplys, the other end of resistance R201 with reach
The pin 15 and pin 16 of Islington tube chip U6 connects, and one end of resistance R202 is connect with 12V power supplys, the other end of resistance R202
It is connect with the pin 13 of Darlington transistor chip U6 and pin 14;One end of resistance R203 is connect with 12V power supplys, and resistance R203's is another
One end is connect with the pin 11 of Darlington transistor chip U6 and pin 12, and one end of resistance R204 is connect with 12V power supplys, resistance R204
The other end connect with the pin 10 of Darlington transistor chip U6.Darlington transistor chip U5, Darlington transistor chip U8 and Darlington transistor
Chip U7 is similar to Darlington transistor chip U6 to the connection relation of surrounding device, and specific connection relation may refer to Fig. 5, this
Place is no longer described in detail.
In switching signal output module 3, the signal GPIO_Output1-GPIO_Output20 that microcontroller U1 is generated is arrived
Darlington transistor chip ULN2003AI.By taking the signal that microcontroller U1 is generated is GPIO_Output1 as an example, light emitting diode D201
Indicator light circuit is constituted with resistance R45, indicates the output state of GPIO_Output1.Resistance R201 is pull-up resistor, will be exported
Level is pulled upward to 12V and generates output signal Output1.The circuit theory and composition on remaining 19 tunnel in switching signal output module 3
It is identical as Output1 output circuits.
In addition, as shown in figure 5, the signal Output1 to Output20 exported from switching signal output module 3 passes through respectively
Two ten pin sockets P5 and P8 are exported to signal lamp and gate.
As shown in fig. 6, the DC-DC power module 4 includes socket P4, insurance F1, diode D6, electrolytic capacitor CP4, filter
Wave circuit L4, TVS diode D7 (SMBJ30A), resistance R60, resistance R59, resistance R61, resistance R64, electrolytic capacitor C37, electricity
Feel L3, Schottky diode D5 (SS34), electrolytic capacitor C40, resistance R65, electrolytic capacitor C38, step-down switching power supply chip U10
(MP1584EN), electrolytic capacitor C39, resistance R63, resistance R62, resistance R58, light emitting diode D4, linear regulator chip U9
(LT1117-5V), diode D3, electrolytic capacitor CP2 and electrolytic capacitor CP3, wherein:One end of 1 foot of socket P4 and insurance F1
Connection, the other end for insuring F1 are connect with the anode of diode D6, and the cathode of diode D6 connects with the anode of electrolytic capacitor CP4
It connects, the cathode ground connection of electrolytic capacitor CP4;One end of filter circuit L4 is connect with the cathode of diode D6, and filter circuit L4's is another
One end is connect with the cathode of one end of resistance R60 and TVS diode D7, the common end grounding of filter circuit L4, and the one of resistance R60
End is the output end of the tertiary voltage 12V of DC-DC power module 4, the other end and the step-down switching power supply chip U10 of resistance R60
Pin 2 connected with one end of resistance R59, the plus earth of TVS diode D7;The other end of resistance R59 is connect with PGND;Drop
The pin 1 of power supply chip U10 and one end of inductance L3, the cathode of Schottky diode D5 and electrolytic capacitor C38 compress switch just
Pole connects, and the other end of inductance L3 is connect with the anode of one end of resistance R61 and electrolytic capacitor C37, and one end of resistance R61 is
The first voltage 3.3V output ends of DC-DC power module 4, the other end of resistance R61 and one end of resistance R64 and step-down switching electricity
The pin 4 of source chip U10 connects, and the other end of resistance R64 is connect with PGND;The pin 3 of step-down switching power supply chip U10 and electricity
Solve the anode connection of capacitance C40, the cathode of electrolytic capacitor C40 is connect with one end of resistance R65, the other end of resistance R65 and
PGND connections;The cathode of electrolytic capacitor C38 is connect with the pin 8 of step-down switching power supply chip U10;Step-down switching power supply chip
The pin 7 of U10 is connect with the anode of electrolytic capacitor C39, the cathode ground connection of electrolytic capacitor C39;Step-down switching power supply chip U10's
Pin 6 is connect with one end of resistance R62, and the other end of resistance R62 is connect with PGND;The pin 5 of step-down switching power supply chip U10
With one end of resistance R63 and connect, the other end of resistance R63 is connect with PGND;The cathode of electrolytic capacitor C37 is grounded;Xiao Te
The plus earth of based diode D5;One end of resistance R58 is connect with 3.3V power supplys, the other end and light emitting diode of resistance R58
The anode connection of D4, the cathode ground connection of light emitting diode D4;The pin 3 of linear regulator chip U9 connects with the cathode of diode D3
It connects, the anode of electrolytic capacitor CP2 is connect with the pin 3 of linear regulator chip U9 and 12V power supplys, and the cathode of electrolytic capacitor CP2 connects
Ground;The pin 1 of linear regulator chip U9 is grounded;The pin 4 and pin 2 of linear regulator chip U9 and the anode of diode D3 connect
It connects, the pin 2 of linear regulator chip U9 is the second voltage 5V output ends of DC-DC power module 4;The anode of electrolytic capacitor CP3
It is connect with the pin 2 of linear regulator chip U9, the cathode ground connection of electrolytic capacitor CP3.
In DC-DC power module 4, the voltage of socket P4 access power module output, the voltage is through insuring F1, and anti-reverse two
Pole pipe D6, meets filter circuit L4, and electrolytic capacitor CP4 provides power filter.TVS diode D7 provides input voltage overvoltage protection.
Step-down switching power supply chip U10 in DC-DC power module 4 uses MP1584EN, input+12V, exports 3.3V, the 12V power supplys
For the voltage of power module output, which inputs from one end of resistance R60 in DC-DC power module 4.Wherein, inductance L3
(15uH/3A), Schottky diode D5 and capacitance C37 realize that switch Buck decompression principles, resistance R61 and resistance R64 are real jointly
Existing output voltage feedback.Resistance R59 and resistance R60 provides the enable signal of step-down switching power supply chip U10.Capacitance C39 is defeated
Enter power supply coupling capacitor.Resistance R62 is used to control the frequency of oscillation of step-down switching power supply chip U10.Light emitting diode D4 and electricity
Resistance R58 is 3.3V power supply indicators.It is step-down switching power supply chip U10 that capacitance C40 and resistance R65, which collectively forms RC filter circuits,
Comparison voltage is provided.Linear regulator chip U9 is linear regulator chip, and input+12V exports 5V DC voltages, the 5V voltages
It is exported from the pin 2 of linear regulator chip U9.Electrolytic capacitor CP2 is input filtering capacitance, and electrolytic capacitor CP3 filters for output end
Wave capacitance, diode D3 provide anti-pressure protection for linear regulator chip U9.
As shown in figs. 7 a and 7b, the analog signal input module 5 includes operational amplifier U11A (LM324), resistance
R101, resistance R69, capacitance C43, resistance R71, operational amplifier U11B, resistance R102, resistance R75, capacitance C45, resistance R77,
Operational amplifier U11C, resistance R103, resistance R81, capacitance C49, resistance R83, operational amplifier U11D, resistance R104, resistance
R87, capacitance C52, resistance R89, operational amplifier U12A (LM324), resistance R105, resistance R68, capacitance C42, resistance R70, fortune
Calculate amplifier U12B, resistance R106, resistance R74, capacitance C46, resistance R76, operational amplifier U12C, resistance R107, resistance
R80, capacitance C48, resistance R82, operational amplifier U12D, resistance R108, resistance R86, capacitance C51, resistance R88, operation amplifier
Device U13A (LM324), resistance R109, resistance R66, capacitance C41, resistance R67, operational amplifier U13B, resistance R110, resistance
R72, capacitance C44, resistance R73, operational amplifier U13C, resistance R111, resistance R78, capacitance C47, resistance R79, operation amplifier
Device U13D, resistance R112, resistance R84, capacitance C50, resistance R85, operational amplifier U14A (LM324), resistance R113, resistance
R90, capacitance C53, resistance R91, operational amplifier U14B, resistance R114, resistance R94, capacitance C55, resistance R95, operation amplifier
Device U14C, resistance R115, resistance R100, capacitance C57, resistance R181, operational amplifier U14D, resistance R116, resistance R187, electricity
Appearance C59, resistance R188, operational amplifier U15A (LM324), resistance R117, resistance R92, capacitance C54, resistance R93, operation are put
Big device U15B, resistance R118, resistance R96, capacitance C56 and resistance R97, wherein:Operation amplifier in analog signal input module 5
Device U11A, operational amplifier U11B, operational amplifier U11C, operational amplifier U11D are integrated in a four-operational amplifier U11
(LM324) in, similarly, operational amplifier U12A, operational amplifier U12B, operational amplifier U12C, operational amplifier U12D collection
In Cheng Yuyi four-operational amplifier U12 (LM324), operational amplifier U13A, operational amplifier U13B, operational amplifier
U13C, operational amplifier U13D are integrated in a four-operational amplifier U13 (LM324), operational amplifier U14A, operation amplifier
Device U14B, operational amplifier U14C, operational amplifier U14D are integrated in four-operational amplifier (LM324) U14, and operation is put
Big device U15A, operational amplifier U15B and following operational amplifier U15C and following operational amplifier U15D are integrated in one four fortune
It calculates in amplifier U15 (LM324).As shown in figs. 7 a and 7b, the mould inputted from the signal input part of analog signal input module 5
Quasi- signal is Analog_IN1-Analog_IN18, they are the analog voltage signal of 0V~12V.Below to input analog signal
For the analog signal of input module 5 is Analog_IN1, the circuit composition of analog signal input module 3 is illustrated:Group
In circuit at input Analog_IN1, one end of resistance R101 is input end of analog signal, the other end and fortune of resistance R101
The pin 3 for calculating amplifier U11A connects, and one end of resistance R69 is connect with the pin 3 of operational amplifier U11A, and resistance R69's is another
One end is grounded, and capacitance C43 is in parallel with resistance R69;The pin 2 of operational amplifier U11A is connect with its pin 1, and the one of resistance R71
End is connect with the pin 1 of operational amplifier U11A, and the other end of resistance R71 is connect with the pin 40 of microcontroller U1, and operation is put
(i.e. the second voltage of DC-DC power module exports the pin 4 of big device U11A with the power input of analog signal input module 5
End) connection.Wherein, resistance R69 and resistance R101 is input terminal divider resistance, and the voltage range of the analog signal of input is reduced
To between 0V~2.5V.Operational amplifier U11A connects into voltage follower structure, to be input to the simulation letter of microcontroller U1
Number input terminal provides buffering and driving function.Capacitance C43 is input filter capacitor, is collectively formed with input terminal divider resistance low
Bandpass filter.Resistance R71 is the load resistance of operational amplifier U11A output signals.The circuit theory of remaining 17 tunnel analog signal
And structure is identical as the composition input circuit of Analog_IN1, inputs the circuit of remaining 17 tunnel analog signal no longer to composition herein
It is described in detail, physical circuit connection relation may refer to the circuit in Fig. 7 a and Fig. 7 b.
As shown in Figure 7 c, all of the port and socket of several signal output ends to laser-correlation pipe and 10pin sockets P6
Port 1 to the port 8 of P9 connects, and port 1 to the port 8 of all of the port and socket P9 from P6 exports analog signal respectively
After Analog_IN1 to Analog_IN18, Analog_IN1 to Analog_IN18 enters analog signal input module 5.
As shown in Fig. 8 a to Fig. 8 d, the digital signal input module 6 includes operational amplifier U15C (LM324), resistance
R119, resistance R184, capacitance C58, resistance R99, resistance R182, resistance R98, resistance R183, light emitting diode D26, operation are put
Big device U15D, resistance R120, resistance R191, capacitance C60, resistance R186, resistance R189, resistance R185, resistance R190, luminous two
Pole pipe D29, it Schmidt trigger chip U17 (74LVC14A), capacitance C61, resistance R192, resistance R121, resistance R196, shines
Diode D30, capacitance C67, resistance R200, resistance R122, resistance R224, light emitting diode D40, capacitance C71, resistance R228,
Resistance R123, resistance R232, light emitting diode D51, resistance R234, light emitting diode D52, capacitance C73, resistance R230, resistance
R124, resistance R226, light emitting diode D41, capacitance C70, resistance R222, resistance R125, resistance R198, light emitting diode D36,
Capacitance C62, resistance R194, resistance R126, capacitance C65, Schmidt trigger chip U19 (74LVC14A), capacitance C75, resistance
R236, it resistance R127, resistance R240, light emitting diode D56, capacitance C81, resistance R244, resistance R128, resistance R248, shines
Diode D65, capacitance C85, resistance R252, resistance R129, resistance R257, light emitting diode D75, capacitance C86, resistance R253,
Resistance R130, resistance R256, light emitting diode D74, capacitance C82, resistance R245, resistance R131, resistance R249, light emitting diode
D66, capacitance C76, resistance R237, resistance R132, resistance R241, light emitting diode D59, capacitance C79, Schmidt trigger chip
U18 (74LVC14A), capacitance C63, resistance R193, resistance R133, resistance R197, light emitting diode D35, capacitance C68, resistance
R221, it resistance R134, resistance R225, light emitting diode D43, capacitance C72, resistance R229, resistance R135, resistance R233, shines
Diode D50, capacitance C74, resistance R231, resistance R136, resistance R235, light emitting diode D53, capacitance C69, resistance R223,
Resistance R137, resistance R227, light emitting diode D45, capacitance C64, resistance R195, resistance R138, resistance R199, light emitting diode
D37, capacitance C66, Schmidt trigger chip U20 (74LVC14), capacitance C77, resistance R238, resistance R139, resistance R242,
Light emitting diode D60, capacitance C83, resistance R246, resistance R140, resistance R250, light emitting diode D67, capacitance C87, resistance
R254, it resistance R141, resistance R258, light emitting diode D76, capacitance C88, resistance R255, resistance R142, resistance R259, shines
Diode D77, capacitance C84, resistance R247, resistance R143, resistance R251, light emitting diode D69, capacitance C78, resistance R239,
Resistance R144, resistance R243, light emitting diode D61, capacitance C80, Schmidt trigger chip U23 (74LVC14A), capacitance
C103, resistance R284, resistance R145, resistance R288, light emitting diode D103, capacitance C109, resistance R292, resistance R146, electricity
Hinder R296, light emitting diode D113, capacitance C113, resistance R300, resistance R147, resistance R304, light emitting diode D121, capacitance
C114, resistance R302, resistance R148, resistance R306, light emitting diode D124, capacitance C110, resistance R293, resistance R149, electricity
Hinder R297, light emitting diode D115, capacitance C104, resistance R285, resistance R150, resistance R289, light emitting diode D107, capacitance
C107, Schmidt trigger chip U25 (74LVC14A), capacitance C117, resistance R308, resistance R151, resistance R312, luminous two
Pole pipe D130, capacitance C123, resistance R316, resistance R152, resistance R320, light emitting diode D135, capacitance C127, resistance
R324, resistance R153, resistance R328, light emitting diode D145, capacitance C128, resistance R326, resistance R154, resistance R330, hair
Optical diode D148, capacitance C124, resistance R317, resistance R155, resistance R321, light emitting diode D140, capacitance C118, resistance
R309, resistance R156, resistance R313, light emitting diode D133, capacitance C121, Schmidt trigger chip U24 (74LVC14A),
Capacitance C105, resistance R286, resistance R157, resistance R290, light emitting diode D108, capacitance C111, resistance R294, resistance
R158, resistance R298, light emitting diode D116, capacitance C115, resistance R301, resistance R159, resistance R305, light emitting diode
D123, capacitance C116, resistance R303, resistance R160, resistance R307, light emitting diode D125, capacitance C112, resistance R295, electricity
Hinder R161, resistance R299, light emitting diode D117, capacitance C106, resistance R287, resistance R162, resistance R291, light emitting diode
D109, capacitance C108, Schmidt trigger chip U26 (74LVC14A), capacitance C119, resistance R310, resistance R163, resistance
R314, light emitting diode D129, capacitance C125, resistance R318, resistance R164, resistance R322, light emitting diode D139, capacitance
C103, resistance R325, resistance R165, resistance R329, light emitting diode D147, capacitance C129, resistance R327, resistance R166, electricity
Hinder R331, light emitting diode D149, capacitance C126, resistance R319, resistance R167, resistance R323, light emitting diode D141, capacitance
C120, resistance R311, resistance R168, resistance R315, light emitting diode D132, capacitance C122, Schmidt trigger chip U21
(74LVC14A), capacitance C89, resistance R260, resistance R169, resistance R262, light emitting diode D80, capacitance C92, resistance R264,
Resistance R170, resistance R266, light emitting diode D83, capacitance C94, resistance R268, resistance R171, resistance R270, light emitting diode
D88, capacitance C95, resistance R269, resistance R172, resistance R271, light emitting diode D89, capacitance C93, resistance R265, resistance
R173, resistance R267, light emitting diode D85, capacitance C90, resistance R261, resistance R174, resistance R263, light emitting diode D81,
Capacitance C91, it Schmidt trigger chip U22 (74LVC14A), capacitance C96, resistance R272, resistance R175, resistance R274, shines
Diode D92, capacitance C99, resistance R276, resistance R176, resistance R278, light emitting diode D95, capacitance C101, resistance R280,
Resistance R177, resistance R282, light emitting diode D100, capacitance C102, resistance R281, resistance R178, resistance R283, light-emitting diodes
Pipe D101, capacitance C100, resistance R277, resistance R179, resistance R279, light emitting diode D97, capacitance C97, resistance R273, electricity
R180, resistance R275, light emitting diode D93 and capacitance C98 are hindered, wherein:The digital signal inputted from digital signal input module 6
Voltage range 0V~12V of Pulse_IN1~Pulse_IN62, by taking Pulse_IN1 as an example, as shown in Figure 8 a, composition input
In the circuit of Pulse_IN1:One end of resistance R99 is connect with 3.3V power supplys, the other end and the operational amplifier U15C of resistance R99
Pin 10 connected with one end of resistance R182, one end of the other end of resistance R182 ground connection, resistance R119 is that digital signal is defeated
Enter end, the other end of resistance R119 is connect with the pin 9 of one end of resistance R184 and operational amplifier U15C, and resistance R184's is another
One end is grounded, and capacitance C58 is in parallel with resistance R184, the both ends of resistance R98 respectively with the pin of operational amplifier U15C 10 and draw
Foot 8 connects, and one end of resistance R183 is connect with 3.3V power supplys, and the other end of resistance R183 connects with the anode of light emitting diode D26
It connects, the cathode of light emitting diode D26 is connect with the pin 8 of operational amplifier U15C, the pin 8 and micro-control of operational amplifier U15C
The pin 116 of device U1 processed connects.Wherein, resistance R119 and R184 carries out partial pressure as input terminal partial pressure to the digital signal of input
Resistance, between the voltage range of the digital signal of input is reduced to 0V~5V, capacitance C58 constitutes low pass filtered with resistance R184
Wave circuit.The positive-feedback circuit of resistance R98, resistance R99, resistance R182 composition operational amplifiers U15C, constitute hysteresis comparator
Circuit.Light emitting diode D26 and current-limiting resistance R183 constitute hysteresis comparator output indicator circuit, are used to indicate sluggish compare
The output state of device.The principle and structure of the circuit of composition input Pulse_IN2 are identical as composition input Pulse_IN1's, this
The circuit of composition input Pulse_IN2 is no longer described in detail in place, and for details, reference can be made to Fig. 8 a.
As shown in Fig. 8 b to Fig. 8 d, from digital signal Pulse_IN3~Pulse_ of the input of digital signal input module 6
The voltage range of IN62 is 0V~12V, by taking the circuit of composition input Pulse_IN3 as an example, in the circuit:Schmidt trigger core
The pin 1 of piece U17 is connect with one end of one end of resistance R121 and resistance R192, and the other end of resistance R121 is that digital signal is defeated
Enter end, resistance R192 the other end ground connection, capacitance C61 is in parallel with resistance R192, the pin 2 of Schmidt trigger chip U17 and
The pin 112 of microcontroller U1 is connected with the cathode of light emitting diode D30, and the anode of light emitting diode D30 is with resistance R196's
One end connects, and the other end of resistance R196 is connect with 3.3V power supplys;The pin 3 of Schmidt trigger chip U17 and resistance R122
One end connected with one end of resistance R200, the other end of resistance R122 is digital signal input end, the other end of resistance R200
Ground connection, capacitance C67 is in parallel with resistance R200, the pin 4 of Schmidt trigger chip U17 and the pin 111 of microcontroller U1 and
The cathode of light emitting diode D40 connects, and the anode of light emitting diode D40 is connect with one end of resistance R224, and resistance R224's is another
One end is connect with 3.3V power supplys;One end of the pin 5 of Schmidt trigger chip U17 and one end and resistance R228 of resistance R123
The other end of connection, resistance R123 is digital signal input end, and the other end of resistance R228 is grounded, capacitance C71 and resistance R228
Parallel connection, the pin 6 of Schmidt trigger chip U17 connect with the cathode of the pin 110 of microcontroller U1 and light emitting diode D51
It connects, the anode of light emitting diode D51 is connect with one end of resistance R232, and the other end of resistance R232 is connect with 3.3V power supplys;It applies
The pin 9 of schmitt trigger chip U17 is connect with one end of one end of resistance R124 and resistance R230, the other end of resistance R124
The other end for digital signal input end, resistance R230 is grounded, and capacitance C73 is in parallel with resistance R230, Schmidt trigger chip
The pin 8 of U17 is connect with the cathode of the pin 109 of microcontroller U1 and light emitting diode D52, the anode of light emitting diode D52
It is connect with one end of resistance R234, the other end of resistance R234 is connect with 3.3V power supplys;The pin of Schmidt trigger chip U17
11 connect with one end of one end of resistance R125 and resistance R222, and the other end of resistance R125 is digital signal input end, resistance
The other end of R222 is grounded, and capacitance C70 is in parallel with resistance R222, the pin 10 and microcontroller of Schmidt trigger chip U17
The pin 108 of U1 is connected with the cathode of light emitting diode D41, and the anode of light emitting diode D41 is connect with one end of resistance R226,
The other end of resistance R226 is connect with 3.3V power supplys;The pin 13 of Schmidt trigger chip U17 and one end of resistance R126 and
One end of resistance R194 connects, and the other end of resistance R126 is digital signal input end, and the other end of resistance R194 is grounded, capacitance
C62 is in parallel with resistance R194, the pin 12 of Schmidt trigger chip U17 and the pin 107 of microcontroller U1 and light-emitting diodes
The cathode of pipe D36 connects, and the anode of light emitting diode D36 is connect with one end of resistance R198, the other end of resistance R198 and
3.3V power supplys connect;The pin 14 of Schmidt trigger chip U17 is connect with one end of 3.3V power supplys and capacitance C65, capacitance C65
Other end ground connection, the pin 7 of Schmidt trigger chip U17 is grounded.Wherein, digital signal Pulse_IN3 passes through resistance
After R121 and resistance R192 is divided, between its voltage range is reduced to 0V~5V, into Schmidt trigger chip U17
(74LVC14).Schmidt trigger chip U17 realizes the input buffering and waveform shaping function of digital signal.Capacitance C61 and electricity
It hinders R121 and resistance R192 constitutes low-pass filter circuit, the digital signal of input is filtered.Schmidt trigger chip U17
The signal GPIO_Input3 of output is exported to microcontroller U1.Light emitting diode D30 and resistance R196 constitute Schmidt trigger
The output indicator circuit of chip U17, to indicate the state of the signal GPIO_Input3 of Schmidt trigger chip U17 outputs.
Composition inputs the circuit theory of remaining 59 railway digital signal and composition inputs the identical of Pulse_IN3 with composition, refers to Fig. 8 b extremely
Fig. 8 d, and will not be described here in detail.
As figure 8 e shows, the port 9 and port 10 of several signal output ends to laser-correlation pipe and 10pin sockets P9,
Socket P7, socket P10, socket P11, socket P12, socket P14, socket P15 connections, number is exported from these socket ports respectively
After signal Pulse_IN1 to Pulse_IN62, Pulse_IN1 to Pulse_IN62 enters digital signal input module 6.
As shown in figure 9, the working station indicator module 10 includes resistance R1, resistance R2, light emitting diode D1 and hair
Optical diode D2;Wherein, one end of resistance R1 is connect with 3.3V power supplys, the anode of the other end and light emitting diode D1 of resistance R1
Connection, the cathode of light emitting diode D1 are connect with the pin 170 of microcontroller U1;One end of resistance R2 is connect with 3.3V power supplys,
The other end of resistance R2 is connect with the anode of light emitting diode D2, the pin of the cathode and microcontroller U1 of light emitting diode D2
169 connections.
As shown in Figure 10, the RS485/RS232 interface modules 7 include RS485 transponder chips U29 (MAX3485E),
Capacitance C138, resistance R336, resistance R337, resistance R338, resistance R339, resistance R335, socket P13, RS232 transponder chip
U28 (MASX3232), capacitance C133, capacitance C136, capacitance C135, capacitance C134 and capacitance C137, wherein:RS485 transceivers
The pin 1 of chip U29 is connect with the pin 150 of microcontroller U1, the pin 2 and pin 3 of RS485 transponder chips U29 with it is micro-
The pin 151 of controller U1 connects, and the pin 4 of RS485 transponder chips U29 is connect with the pin 147 of microcontroller U1,
The pin 8 of RS485 transponder chips U29 is connect with 3.3V power supplys, the pin 7 and resistance R336's of RS485 transponder chips U29
One end is connected with one end of resistance R337, the other end ground connection of resistance R336, the other end of resistance R337 and the one of resistance R335
End is connect with the pin A4 of socket P13, and the other end of resistance R335 is connect with the pin A3 of socket P13, RS485 transceiver cores
The pin 6 of piece U29 is connect with one end of one end of resistance R338 and resistance R339, and the other end and the 3.3V power supplys of resistance R339 connect
It connects, the other end of resistance R338 is connect with the pin A3 of socket P13;One end of capacitance C138 is connect with 3.3V power supplys, capacitance
The other end of C138 is grounded, and the pin 5 of RS485 transponder chips U29 is grounded;The pin 16 of RS232 transponder chips U28 with
3.3V power supplys connect, and one end of capacitance C135 is connect with the pin 16 of RS232 transponder chips U28, the other end of capacitance C135
Ground connection, one end of capacitance C133 are connect with the pin 16 of RS232 transponder chips U28, and the other end and the RS232 of capacitance C133 are received
The pin 2 for sending out device chip U28 connects, and the pin 6 of RS232 transponder chips U28 is connect with one end of capacitance C136, capacitance C136
Other end ground connection, the pin 15 of RS232 transponder chips U28 is grounded, the pin 10 and micro-control of RS232 transponder chips U28
The pin 164 of device U1 processed connects, and the pin 9 of RS232 transponder chips U28 is connect with the pin 165 of microcontroller U1, RS232
The pin 1 of transponder chip U28 is connect with one end of capacitance C134, the other end and the RS232 transponder chips U28 of capacitance C134
Pin 3 connect, the pin 4 of RS232 transponder chips U28 connect with one end of capacitance C137, the other end of capacitance C137 and
The pin 5 of RS232 transponder chips U28 connects;The pin 7 of RS232 transponder chips U28 is connect with the pin B3 of socket P13,
The pin 8 of RS232 transponder chips U28 is connect with the pin B4 of socket P13.
Wherein, RS232 transponder chips U28 uses MASX3232, RS232 transceivers in RS485/RS232 interface modules 7
Chip U28 and its accessory circuit realize that the UART signal of microcontroller U1 is converted in TTL signal between RS232 signals, in turn
Realize the communication function between microcontroller U1 and host computer.RS485 transponder chips U29 uses MAX3485E, RS485 transmitting-receivings
Device chip U29 and its accessory circuit realize that the UART signal of microcontroller U1 turns between TTL signal and RS485 differential signals
It changes.
As shown in Figure 10, the CAN interface module 8 include CAN bus conversion chip U27 (TJA1040T), capacitance C131,
Resistance R333, resistance R332, capacitance C132, resistance R334 and CAN bus TVS protection chip U16 (PESD1CAN), wherein:CAN
The pin 1 of general line system chip U27 is connect with the pin 128 of microcontroller U1, the pin 3 and 5V of CAN bus conversion chip U27
Power supply connects, and one end of capacitance C131 is connect with 5V power supplys, the other end of capacitance C131 and drawing for CAN bus conversion chip U27
Foot 2 is grounded after connecting, and the pin 4 of CAN bus conversion chip U27 is connect with the pin 11 of microcontroller U1, and CAN bus converts core
The pin 8 of piece U27 is grounded, and the pin 7 and CAN bus TVS of CAN bus conversion chip U27 protects the pin 1 of chip U16 and inserts
The pin 6 and CAN bus TVS of the pin A1 connections of seat P13, CAN bus conversion chip U27 protects the pin 2 of chip U16 and inserts
The pin 3 of the pin A2 connections of seat P13, CAN bus TVS protection chips U16 is grounded, the pin 5 of CAN bus conversion chip U27
It is connect with one end of resistance R333, the other end of resistance R333 is connect with one end of capacitance C132, another termination of capacitance C132
The one end on ground, resistance R332 is connect with the pin 7 of CAN bus conversion chip U27, the other end of resistance R332 and resistance R334's
One end is connect with the other end of resistance R333, and the other end of resistance R334 is connect with the pin 6 of CAN bus conversion chip U27.
Wherein, the CAN bus conversion chip U27 in CAN interface module 8 uses TJA1040T, is converted as CAN bus
The full duplex TTL signal that microcontroller U1 is exported is converted to the half-duplex differential signal for meeting CAN2.0 agreements by chip.CAN
Bus TVS protection chips U16 uses PESD1CAN, chip is protected as CAN bus TVS, to prevent the surge in CAN bus
It scurries into inside gabarit length gabarit linear measure longimetry card.
As shown in figure 11, the usb interface module 9 includes resistance R34 3, resistance R34 2, power management chip U30
(STMPS2141STR), capacitance C139, resistance R34 1, resistance R34 0, diode D150, socket P16, resistance R34 4 and resistance
R345, wherein:One end of resistance R34 3 is connect with the pin 118 of microcontroller U1, the other end and power management of resistance R34 3
The pin 4 of chip U30 connects;One end of resistance R34 2 is connect with 3.3V power supplys, the other end and the power management core of resistance R34 2
The pin 4 of piece U30 connects;The pin 5 of power management chip U30 is connect with 5V DC voltages;The pin of power management chip U30
3 connect with the pin 117 of microcontroller U1;The pin 1 of power management chip U30 is connect with one end of capacitance C139, capacitance
The other end of C139 is grounded;One end of resistance R34 1 is connect with 3.3V power supplys, the other end and power management chip of resistance R34 1
The pin 3 of U30 connects;One end of resistance R34 0 is connect with 3.3V power supplys, and the other end and diode D150 of resistance R34 0 are just
Pole connects, and the cathode of diode D150 is connect with the pin 3 of power management chip U30;1 He of pin of power management chip U30
The pin 1 of socket P16 is connect with the pin 120 of microcontroller U1, and the pin 2 of socket P16 is connect with one end of resistance R34 4, electricity
The other end of resistance R344 is connect with the pin 122 of microcontroller U1, and the pin 3 of socket P16 is connect with one end of resistance R34 5, electricity
The other end of resistance R345 is connect with the pin 123 of microcontroller U1, and the pin 4 of socket P16 connects with the pin 121 of microcontroller U1
It connects, the pin 5 of socket P16 is grounded, and the pin 2 of power management chip U30 is grounded.
Wherein, the power management chip U30 in usb interface module 9 uses STMPS2141STR chips, is used as USB-
The power management chip of OTG.Resistance R34 2 and resistance R34 3 provide one high electricity for the enabled pin of power management chip U30
It is flat.Resistance R34 0 and diode D150 are controlled by microcontroller U1, indicate whether current USB port over-current phenomenon avoidance occurs.Resistance
R341 provides pull-up resistor for the open-drain output port FAULT of power management chip U30.Socket P16 is Micro-USB sockets.
Capacitance C139 is the filter capacitor of usb bus power supply.Resistance R34 4, resistance R34 5 are USB differential bus build-out resistors.
Optionally, it is described it is several include laser-correlation pipe, several that several are used to measure wheelbase to laser-correlation pipe
A laser-correlation pipe for measuring front overhang is used to measure the laser-correlation pipe of rear overhang with several;Laser for measuring wheelbase
To penetrating the height of pipe with ground at a distance of 8-12cm, the height and motor vehicle front bumper of the laser-correlation pipe for measuring front overhang
It is highly corresponding, it is corresponding with the height of motor vehicle rear bumper for measuring the height of laser-correlation pipe of rear overhang.Wherein, it uses
In the height for the laser-correlation pipe for measuring wheelbase and ground at a distance of preferably 10cm.
Motor vehicle gabarit length measuring system in the utility model is used to measure the wheelbase of motor vehicle, front overhang length, rear overhang
Long and vehicle commander.The utility model is when measuring, when tested motor vehicle enters the detection zone of mobile testing line, gate
Cross bar put down, driver drive walk between several LASER Discharge Tubes and laser pickoff to laser-correlation pipe, it is each
The switching signal for being released and being triggered is transferred to analog signal by input/output connecting terminal and inputs mould by laser-correlation pipe
The either digital signal input module 6 of block 5 believes switch by the either digital signal input module 6 of analog signal input module 5
Number carry out shaping and filtering after, be sent to micro controller module 1.To then by analog signal input module 5 or digital signal
Input module 6 carries out shaping and filtering to switching signal, be based on it is several to laser-correlation pipe export be analog signal or
Depending on digital signal.When several switching signals to the output of laser-correlation pipe are analog signals, mould is inputted by analog signal
Block 5 carries out shaping and filtering to switching signal;When it is several to laser-correlation pipe output be digital signal when, it is defeated by digital signal
Enter module 6 and shaping and filtering are carried out to switching signal.Micro controller module 1 receive from analog signal input module 5 or
The information that all laser-correlation pipes are triggered and are released, microcontroller are carried in the signal for being digital signal input module 6
Spacing meter between information that module 1 is triggered and is released according to all laser-correlation pipes and pre-stored laser-correlation pipe
Wheelbase, front overhang length, rear overhang length and the vehicle commander of motor vehicle are calculated, and result of calculation is sent to host computer by ethernet module 2, is supervised
Survey personnel are the wheelbase that can determine the motor vehicle currently measured, front overhang length, rear overhang length and vehicle commander according to the display result of host computer.
In addition, when motor vehicle gabarit length measuring system includes RS485/RS232 interface modules 7 and/or CAN interface module 8, microcontroller
Device module 1 can also select RS485/RS232 interface modules 7 based on the communication interface between micro controller module 1 and host computer
Or measurement result is sent to host computer by CAN interface module 8.When completing the measurement to current automobile, micro controller module 1
Control instruction is generated, and control instruction is sent to switching signal output module 3 and working station indicator module 10, switch letter
The cross bar that number output module 3 controls gate according to the control instruction of micro controller module 1 rises, and controls signal lamp variation face
Color, so that next motor vehicle can begin preparing for entering detection zone according to the color of signal lamp.
Specifically, micro controller module 1 is deposited in the information for being triggered and being released according to all laser-correlation pipes and in advance
It, can be as follows when the wheelbase of distance computation motor vehicle between the laser-correlation pipe of storage, front overhang are long, rear overhang is long and vehicle commander
To realize:
(1) vehicle velocity V when motor vehicle passes through detection zone is calculated.
As shown in figure 12, motor vehicle crosses from left to right, and the front-wheel of motor vehicle bumps against phase respectively at t1 moment and t2 moment
The laser rays that adjacent laser-correlation pipe is launched, such as the laser rays 1 and laser rays 2 in Figure 12, this two laser rays are corresponding to swash
Light gives gabarit linear measure longimetry card to penetrating pipe output switching signal.If pre-stored adjacent two laser of micro controller module 1
Spacing between line is that (all laser-correlation pipes are evenly arranged L, and the spacing between two neighboring laser-correlation pipe is identical, is
L), then vehicle velocity V ' when motor vehicle passes through detection zone can be expressed as:
When the front-wheel of motor vehicle is breasted the tape each time, a speed V ' can be all recalculated, calculates the flat of all speed V '
Mean value obtains vehicle velocity V when motor vehicle passes through detection zone.
(2) the intercept T of motor vehicle is calculated.
As shown in figure 13, motor vehicle crosses from left to right, and front-wheel discharges laser in t1 time trigger laser rays, at the t3 moment
Line.According to vehicle velocity V, micro controller module 1 can be with calculated intercept T ':T'=V × (t3-t1).Microcontroller mould
At the time of block 1 triggers according to motor vehicle and discharges all laser rays and multiple intercept T ' are calculated in speed V, and calculate multiple sections
Average value away from T ', you can obtain the intercept T of motor-car.
(3) the wheelbase Z of motor vehicle is calculated.
As shown in figure 14, launched for measuring the laser-correlation pipe of wheelbase due to the triggering simultaneously of the front and back wheel of motor vehicle
The possibility of laser rays is substantially not present, and when the height for the laser-correlation pipe for being used to measure wheelbase and ground are at a distance of 8-12cm
When, the wheel of tested motor vehicle can at most block 2 laser rays simultaneously.Therefore, it is adopted in the utility model when calculating wheelbase Z
With the bases wheelbase Z=wheelbase-compensation wheelbase.
Specifically, when front-wheel is triggered for measuring wheelbase laser rays n that the LASER Discharge Tube of wheelbase is launched, microcontroller
Device module 1 preserves triggered time t4.At this point, micro controller module 1 skips wheelbase laser rays n-1, backward scanning be currently at by
The nearest wheelbase laser rays m of triggering state, then can calculate basic wheelbase Zb=L × (n-m).It is current in conjunction with front-wheel
The vehicle velocity V of triggered time t4, trailing wheel nearest triggered time t5 and motor vehicle calculate compensation wheelbase Zc=V × (t5-t4).It should
The wheelbase Z'=Z for the motor vehicle that secondary measurement process measuresb-Zc.As long as trailing wheel effectively triggers laser rays, then front-wheel is every
After primary triggering laser rays, a wheelbase Z ' can all be calculated.All wheelbase data generated in measurement process can all be protected
It deposits, after one-shot measurement process, micro controller module 1 calculates the average value of all wheelbase Z ', using the average value as machine
The wheelbase Z of motor-car.
(4) the long F of front overhang of motor vehicle is calculated.
As shown in figure 15, the installation site of the laser-correlation pipe for measuring front overhang is higher than the laser pair for measuring wheelbase
Pipe is penetrated, the height of motor vehicle front bumper position is generally for measuring the height of laser-correlation pipe of front overhang, for surveying
The front overhang laser rays that the laser-correlation pipe of amount front overhang is launched is in the surface of wheelbase laser rays.Because headstock and front-wheel touch simultaneously
The possibility of hair laser rays is substantially not present, thus in the present invention the selection front overhang long bases F=front overhang-compensation front overhang+
Intercept/2.
Specifically, front overhang laser rays is in the surface of wheelbase laser rays o and parallel with wheelbase laser rays o.When front overhang laser
When line is triggered and (blocks), micro controller module 1 is currently at the first of triggering state from headstock to tailstock direction finding automatically
Wheelbase laser rays p (i.e. front-wheel block near preceding laser rays), calculates basic front overhang Fb=L × (o-p).If headstock touches
It is t6 at the time of sending out front overhang laser rays, front-wheel is t7 at the time of triggering wheelbase laser rays p, then compensating front overhang is:Fc=V × (t6-
t7).The intercept T that wheelbase laser rays is formed on front-wheel is considered further that, so front overhang is:F=Fb-Fc+T/2.Entire measurement process
In, front overhang length only measures when headstock triggers front overhang laser rays primary.
(5) the long R of rear overhang of motor vehicle is calculated.
As shown in figure 16, the installation site of the laser-correlation pipe for measuring rear overhang is higher than the laser pair for measuring wheelbase
Pipe is penetrated, the height of motor vehicle rear bumper position is generally for measuring the height of laser-correlation pipe of rear overhang, for surveying
The rear overhang laser rays that the laser-correlation pipe of amount rear overhang is sent out is in the surface of wheelbase laser rays.Because the tailstock and trailing wheel discharge simultaneously
The possibility of laser rays is substantially not present, so the selection rear overhang long bases R=rear overhang+compensation rear overhang+cut in the present invention
Away from/2.
Specifically, when rear overhang laser rays g is released, after micro controller module 1 is automatically from the tailstock to headstock direction finding
The wheelbase laser rays h discharged recently is taken turns, basic rear overhang is calculated:Rb=L × (g-h).If the tailstock discharges rear overhang laser rays
Moment is t8, is t9 at the time of trailing wheel release shaft is away from laser rays g, then compensating rear overhang is:Rc=V × (t8-t9).Consider further that axis
Away from the intercept T that laser rays is formed on trailing wheel, so rear overhang is:R=Rb+Rc+T/2.In entire measurement process, rear overhang is only in vehicle
Tail measures primary when discharging rear overhang laser rays.
(6) the vehicle commander L of motor vehicle is calculatedv。
In summary data, vehicle commander are represented by the sum of the long F of front overhang, rear overhang long R and wheelbase Z, i.e. the vehicle commander L of motor vehiclev
=R+F+Z.
It is understood that embodiment of above is merely to illustrate that the principles of the present invention and uses exemplary
Embodiment, however the utility model is not limited thereto.For those skilled in the art, this is not being departed from
In the case of the spirit and essence of utility model, various changes and modifications can be made therein, these variations and modifications are also considered as this reality
With novel protection domain.
Claims (4)
1. a kind of motor vehicle gabarit length measuring system for mobile testing line, which is characterized in that including power module, outside
It is wide linear measure longimetry card, several to laser-correlation pipe, signal lamp, gate and host computer;The power module and gabarit linear measure longimetry
Card, it is several laser-correlation pipe, signal lamp and gate are all connected with, and for for gabarit linear measure longimetry card, several to laser-correlation
Pipe, signal lamp and gate power supply;LASER Discharge Tube and laser pickoff in several pipes to laser-correlation are relatively arranged on motor-driven
The cross bar of the both sides of car test survey line check bit, gate is set to the check bit detection inlet of motor vehicle;The gabarit length is surveyed
Amount card includes micro controller module (1), ethernet module (2), switching signal output module (3), DC-DC power module (4), mould
Quasi- signal input module (5), digital signal input module (6) and working station indicator module (10), wherein:
The power input of the DC-DC power module (4) and the power output end of power module connect, and DC-DC power source mould
Block (4) is used to the voltage of power module being converted to first voltage, second voltage and tertiary voltage, DC-DC power module (4)
First voltage output end is defeated with the power supply of the power input of micro controller module (1) and digital signal input module (6) respectively
Enter end connection, the second voltage output end of DC-DC power module (4) connects with the power input of analog signal input module (5)
It connects, the tertiary voltage output end of DC-DC power module (4) is connect with the power input of switching signal output module (3);It is described
Several signal output ends to laser-correlation pipe pass through the letter of input/output connecting terminal and analog signal input module (5)
Number input terminal is connected with the signal input part of digital signal input module (6), the signal output end of analog signal input module (5)
It is connect with the signal input part of micro controller module (1) with the signal output end of digital signal input module (6), microcontroller
The signal output end of module (1) and the signal input part of switching signal output module (3) and working station indicator module (10)
Signal input part connection, the network port of micro controller module (1) connect with ethernet module (2), switching signal output mould
Block (3) is all connected with signal lamp and gate;The analog signal input module (5) and digital signal input module (6) are for adopting
Collect several switching signals sent out to laser-correlation pipe, and shaping and filtering are carried out to the switching signal of acquisition, is micro- with processing
Controller module (1) identifiable signal, micro controller module (1) are used to come from analog signal input module according to reception
(5) axis of the distance computation motor vehicle or between the signal of digital signal input module (6) and pre-stored laser-correlation pipe
, rear overhang long away from, front overhang be long and vehicle commander, and result of calculation is sent to host computer, micro controller module by ethernet module (2)
(1) it is additionally operable to generate control instruction according to result of calculation, and control instruction is sent to switching signal output module (3) and work
State instruction lamp module (10), switching signal output module (3), which is used to be controlled according to the control instruction of micro controller module (1), to be believed
The action of signal lamp and gate, the working station indicator module (10) are used for the control instruction according to micro controller module (1)
Show the current working condition of gabarit linear measure longimetry card.
2. the motor vehicle gabarit length measuring system according to claim 1 for mobile testing line, which is characterized in that
The gabarit linear measure longimetry card further includes RS485/RS232 interface modules (7) and/or CAN interface module (8), the RS485/
RS232 interface module (7) is connect with the first voltage output end of micro controller module (1) and DC-DC power module (4) respectively,
The CAN interface module (8) connects with micro controller module (1) and the second voltage output end of DC-DC power module (4) respectively
It connects, RS485/RS232 interface modules (7) and/or CAN interface module (8) are connected by input/output connecting terminal and host computer
It connects;RS485/RS232 interface modules (7) and/or CAN interface module (8) are used to receive the result of calculation of micro controller module (1)
And result of calculation is sent to host computer, and the configuration-direct for receiving host computer, and configuration-direct is sent to microcontroller
Device module (1), so that micro controller module (1) configures parameter according to configuration-direct.
3. the motor vehicle gabarit length measuring system according to claim 1 for mobile testing line, which is characterized in that
The gabarit linear measure longimetry card further includes usb interface module (9), usb interface module (9) respectively with micro controller module (1)
Signal output end is connected with the first voltage output end of DC-DC power module (4);Usb interface module (9) is for providing from micro-control
Device module (1) processed downloads the interface of result of calculation.
4. the motor vehicle gabarit length measuring system according to claim 1 for mobile testing line, which is characterized in that
It is described it is several include that several are used to measure that the laser-correlation pipe of wheelbase, several to be for measure front overhang long to laser-correlation pipe
Laser-correlation pipe and several be used for measure rear overhang length laser-correlation pipes;Height for the laser-correlation pipe for measuring wheelbase
It is opposite with the height of motor vehicle front bumper for measuring the height of laser-correlation pipe of front overhang length with ground at a distance of 8-12cm
It answers, it is corresponding with the height of motor vehicle rear bumper for measuring the height of laser-correlation pipe of rear overhang length.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108106548A (en) * | 2018-02-01 | 2018-06-01 | 山西大学 | For the motor vehicle gabarit length measuring system of mobile testing line |
CN112187821A (en) * | 2020-10-09 | 2021-01-05 | 四川海天仪表电器开发有限公司 | Multi-bus free protocol conversion module of armored vehicle |
-
2018
- 2018-02-01 CN CN201820177706.9U patent/CN207936916U/en not_active Withdrawn - After Issue
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108106548A (en) * | 2018-02-01 | 2018-06-01 | 山西大学 | For the motor vehicle gabarit length measuring system of mobile testing line |
CN108106548B (en) * | 2018-02-01 | 2023-11-14 | 山西大学 | Motor vehicle profile length measurement system for motor vehicle detection line |
CN112187821A (en) * | 2020-10-09 | 2021-01-05 | 四川海天仪表电器开发有限公司 | Multi-bus free protocol conversion module of armored vehicle |
CN112187821B (en) * | 2020-10-09 | 2023-03-10 | 四川海天仪表电器开发有限公司 | Multi-bus free protocol conversion module of armored vehicle |
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