CN106404419B - A kind of mobile testing line analogue system and method - Google Patents
A kind of mobile testing line analogue system and method Download PDFInfo
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- CN106404419B CN106404419B CN201610739612.1A CN201610739612A CN106404419B CN 106404419 B CN106404419 B CN 106404419B CN 201610739612 A CN201610739612 A CN 201610739612A CN 106404419 B CN106404419 B CN 106404419B
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01M—TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
- G01M17/00—Testing of vehicles
- G01M17/007—Wheeled or endless-tracked vehicles
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Abstract
In view of the deficiencies of the prior art, the present invention proposes a kind of mobile testing line analogue system, which is made of detection line simulation unit, control system, design of Simulation unit:The present invention has the following advantages, design is unique, it is easily installed, it is easy to operate, make detection device that can set the program in design of Simulation unit in any combination, to form different detection line simulating schemes, the operating condition of detection line can be simulated and be verified, and then selects optimal design scheme.
Description
Technical field
The present invention relates to mobile testing line design of Simulation technical fields, it particularly relates to arrive a kind of motor vehicle detecting
Line analogue system and method.
Background technology
Mobile testing line is the Main functional units of motor vehicle inspection station, be generally arranged at detection workshop in, if be by
Dry detection device is had developed at present by the detection operation line of certain detection ordering composition continuous-flow type by computer measurement and control system
The automatic inspection line of networking control detection process.Can planning of science activities design detection line, detection project is rationally set, inspection is arranged
Survey sequence, layout detection station, detection device, be related to detection line holds inspection vehicle range, detectability, detection efficiency,
It is related to the economy of operation phase.Some detection lines are inconsiderate in planning and design, by inspection vehicle when causing actually detected
Between interfere, detection beat is unbalanced, and detection efficiency is low or even the non-detectable serious consequence of some projects.
There is an urgent need for be resolved for the above problem of the prior art.
Invention content
In view of the deficiencies of the prior art, the present invention proposes a kind of mobile testing line analogue systems, and the system is by detecting
Line simulation unit, control system, design of Simulation unit composition, concrete scheme are as described below.
A kind of mobile testing line analogue system is claimed in the present invention, which is by detection line simulation unit, control
System, design of Simulation unit composition,
Wherein, detection line simulation unit by auto model, area to be checked, sliding rail, chassis detection module, axle test module,
Braking performance test module, sideslip detection module, detection of headlight module, earth module, graduation mark composition;
Including chassis detection module, axle test module, braking performance test module, sideslip detection module, detection of headlight mould
Detection device module including block, be arranged on sliding rail, the distance between detection device module by design of Simulation unit setting
Unit is arranged, and one end of each detection device module is equipped with infrared launcher, the other end be equipped with infrared receiving device and
Detect signal lamp;
Earth module is made of the rectangular strip filling of different in width, for fixing above-mentioned detection device module, to prevent from examining
Measurement equipment module moves in detection process;
Graduation mark is arranged on sliding rail;
Control system is by infrared launcher, infrared receiving device, detection signal lamp, signal acquisition and processing apparatus, master control
Machine forms;
The signal acquisition and processing apparatus, input terminal are connected with the output end of infrared receiving device, output end and main controller
It is connected, after tested vehicle enters detection station, infrared signal is sheltered from by car body, and infrared receiving device does not receive infrared letter
Number, information is fed back to main controller by signal collection processing unit;
The main controller, input terminal are connected with signal acquisition and processing apparatus output end, output end and detection device and detection
Signal lamp is connected, and after receiving vehicle signal in place, main controller sends instruction to detection signal lamp, is shown as blue, and detection is set
Standby to also begin to run, detection duration is set by design of Simulation unit, and the time of traffic light system blue indicates the detection station
Detection time, detection are completed, and detection traffic light system is red;
Design of Simulation unit is made of setting unit, detection module, timing unit, logging modle, database module;
The setting unit, the position for presetting each detection device and run time, position are adjusted by graduation mark;
The vehicle commander of auto model, axle number, wheelbase are set;
Detection module, for detecting detection device and signal lamp operation, until all detection projects terminate, record detected
Operation data measured by journey and detection time;
Timing module, for carrying out timing to each run time;
Logging modle, for recording under different facilities, the operational efficiency of mobile testing line station, and then be next
Step is selected optimal scheme and is referred to;
Database module, for preserving auto model data, detection device module data, detection process data.
A kind of mobile testing line emulation mode applied to system as described in claim 1 is also claimed in the application,
This method comprises the following steps:
S101, be mounted on track side infrared receiving device receive infrared launcher signal, when auto model into
After entering area to be checked, infrared signal is blocked by car body, and infrared receiving device cannot receive infrared signal, it is meant that vehicle reaches to be checked
Region;
S102, signal collection processing unit are transferred to main controller after being collected into signal, are carried in design of Simulation unit at this time
Timing unit start timing, indicate that detection process starts, auto model moves on, infrared after vehicle reaches detection station
Reception device can't detect infrared signal, indicate that vehicle enters detection station;
S103, main controller send instruction to detection signal lamp, and signal lamp becomes blue from red, indicate that detection device is opened
Begin, while detection device brings into operation, carry out the detection of the project, signal lamp is the time of blue to mean the detection project
Detection time, when signal lamp is red, i.e., the project completes detection, into next station, is sequentially completed every detection, and first
After vehicle completes all detection projects, timer can show the vehicle from area to be checked is entered to completing the detection time used;
S104, design of Simulation unit can record the detection time and detection line arrangement of each car, then replace design side
Case, the position of change detection equipment change the distance between detection device, different design schemes are formed, with identical vehicle
Model carrys out analog detection process, eventually by the contrasting detection time, selects optimal design scheme.
The present invention has the following advantages that design is unique, is easily installed, easy to operate, and the proposition of the invention is a kind of
The analogue system of mobile testing line, make detection device can in any combination, to form different detection line simulating schemes,
Design of Simulation unit sets the program, so that it may to simulate and verify the operating condition of detection line, and then select optimal design
Scheme.
Description of the drawings
Attached drawing 1 is the structural schematic diagram of the mobile testing line analogue system of the present invention;
Attached drawing 2 is the flow diagram of the mobile testing line emulation mode of the present invention.
Specific implementation mode
Below by specific embodiment, the invention will be further described, and following embodiment is descriptive, is not limit
Qualitatively, protection scope of the present invention cannot be limited with this.
As shown in Figure 1, for a kind of claimed mobile testing line analogue system of the present invention, which is imitated by detection line
True unit, control system, design of Simulation unit composition,
Wherein, detection line simulation unit is by auto model 1, area to be checked 3, sliding rail 6, chassis detection module 7, axle test mould
Block 8, braking performance test module 9, sideslip detection module 10, detection of headlight module 11, earth module 15, graduation mark 16 form;
Including chassis detection module 7, axle test module 8, braking performance test module 9, sideslip detection module 10, headlamp inspection
The detection device module including module 11 is surveyed, is arranged on sliding rail 6, the distance between detection device module is by design of Simulation unit
Setting unit setting, one end of each detection device module is equipped with infrared launcher 2, and the other end is equipped with infrared receiver
Device 4 and detection signal lamp 5;
Earth module 15 is made of the rectangular strip filling of different in width, for fixing above-mentioned detection device module, to prevent
Detection device module moves in detection process;
Graduation mark 16 is arranged on sliding rail 6;
Control system by infrared launcher 2, infrared receiving device 4, detection signal lamp 5, signal acquisition and processing apparatus 12,
Main controller 13 forms;
The signal acquisition and processing apparatus 12, input terminal are connected with the output end of infrared receiving device 4, output end and master control
Machine 13 is connected, and after tested vehicle enters detection station, infrared signal is sheltered from by car body, and infrared receiving device does not receive red
Information is fed back to main controller by external signal, signal collection processing unit 12;
The main controller 13, input terminal are connected with 12 output end of signal acquisition and processing apparatus, output end and detection device and
It detects signal lamp to be connected, after receiving vehicle signal in place, main controller sends instruction to detection signal lamp, is shown as blue, inspection
Measurement equipment also begins to run, and detection duration is set by design of Simulation unit, and the time of traffic light system blue indicates the detection work
The detection time of position, detection are completed, and detection traffic light system is red;
Design of Simulation unit is made of setting unit, detection module, timing unit, logging modle, database module;
The setting unit, the position for presetting each detection device and run time, position are adjusted by graduation mark 16
It is whole;The vehicle commander of auto model, axle number, wheelbase are set;
Detection module, for detecting detection device and signal lamp operation, until all detection projects terminate, record detected
Operation data measured by journey and detection time;
Timing module, for carrying out timing to each run time;
Logging modle, for recording under different facilities, the operational efficiency of mobile testing line station, and then be next
Step is selected optimal scheme and is referred to;
Database module, for preserving auto model data, detection device module data, detection process data.
As shown in Fig. 2, the application equally protects a kind of mobile testing line emulation mode applied to above system, the party
Method includes the following steps:
S101, the infrared receiving device 4 for being mounted on track side receives the signal of infrared launcher 2, when auto model 1
Into after area 3 to be checked, infrared signal is blocked by car body, and infrared receiving device 4 cannot receive infrared signal, it is meant that vehicle reaches
Region to be checked;
S102, signal collection processing unit 12 are transferred to main controller 13 after being collected into signal, at this time in design of Simulation unit
Included timing unit starts timing, indicates that detection process starts, and auto model 1 moves on, after vehicle reaches detection station,
Infrared receiving device 4 can't detect infrared signal, indicate that vehicle enters detection station;
S103, main controller 13 send instruction to detection signal lamp 5, and signal lamp becomes blue from red, indicates detection device
Start, while detection device brings into operation, carry out the detection of the project, signal lamp is the time of blue to mean the detection project
Detection time, when signal lamp is red, i.e., the project completes detection, into next station, is sequentially completed every detection, the
After one vehicle completes all detection projects, timer can show the vehicle from area to be checked is entered to the time completed used in detection;
S103, design of Simulation unit can record the detection time and detection line arrangement of each car, then replace design side
Case, the position of change detection equipment change the distance between detection device, different design schemes are formed, with identical vehicle
Model carrys out analog detection process, eventually by the contrasting detection time, selects optimal design scheme.
By emulating different detection line design schemes, unreasonable design and construction can be effectively avoided, and big
The big operational efficiency for improving mobile testing line, avoids the wasting of resources and unnecessary economic loss
Using specific embodiment, principle and implementation of the present invention are described in the present invention, above example
Illustrate the method and its core concept for being merely used to help understand the present invention, those of ordinary skill in the art are not being done
Go out the every other embodiment obtained under the premise of creative work, belongs to the range of the protection of the present invention.
Claims (1)
1. a kind of mobile testing line emulation mode applied to mobile testing line analogue system, the mobile testing line
Analogue system is made of detection line simulation unit, control system, design of Simulation unit, it is characterised in that:
Wherein, detection line simulation unit is by auto model, area to be checked, sliding rail, chassis detection module, axle test module, braking
Detection module, sideslip detection module, detection of headlight module, earth module, graduation mark composition;
Exist including chassis detection module, axle test module, braking performance test module, sideslip detection module, detection of headlight module
Interior detection device module, be arranged on sliding rail, the distance between detection device module by design of Simulation unit setting unit
Setting, one end of each detection device module are equipped with infrared launcher, and the other end is equipped with infrared receiving device and detection
Signal lamp;
Earth module is made of the rectangular strip filling of different in width, for fixing above-mentioned detection device module, to prevent detection from setting
Standby module moves in detection process;
Graduation mark is arranged on sliding rail;
Control system is by infrared launcher, infrared receiving device, detection signal lamp, signal acquisition and processing apparatus, master control unit
At;
The signal acquisition and processing apparatus, input terminal are connected with the output end of infrared receiving device, and output end is connected with main controller,
After tested vehicle enters detection station, infrared signal is sheltered from by car body, and infrared receiving device does not receive infrared signal, letter
Information is fed back to main controller by number collection and treatment device;
The main controller, input terminal are connected with signal acquisition and processing apparatus output end, output end and detection device and detection signal
Lamp is connected, and after receiving vehicle signal in place, main controller sends instruction to detection signal lamp, is shown as blue, detection device
It brings into operation, detection duration is set by design of Simulation unit, and the time of traffic light system blue indicates the detection of the detection station
Time, detection are completed, and detection traffic light system is red;
Design of Simulation unit is made of setting unit, detection module, timing unit, logging modle, database module;
The setting unit, the position for presetting each detection device and run time, position are adjusted by graduation mark;Setting
The vehicle commander of auto model, axle number, wheelbase;
Detection module, for detecting detection device and signal lamp operation, until all detection projects terminate, record detection process institute
The operation data and detection time measured;
Timing module, for carrying out timing to each run time;
Logging modle, for recording under different facilities, the operational efficiency of mobile testing line station, and then to select in next step
Go out optimal scheme to refer to;
Database module, for preserving auto model data, detection device module data, detection process data;
The mobile testing line emulation mode includes the following steps:
S101, the infrared receiving device for being mounted on track side receive the signal of infrared launcher, are waited for when auto model enters
After examining area, infrared signal is blocked by car body, and infrared receiving device cannot receive infrared signal, it is meant that vehicle reaches area to be checked
Domain;
S102, signal collection processing unit are transferred to main controller after being collected into signal, the meter carried in design of Simulation unit at this time
Shi Danyuan starts timing, indicates that detection process starts, and auto model moves on, after vehicle reaches detection station, infrared receiver
Device can't detect infrared signal, indicate that vehicle enters detection station;
S103, main controller send instruction to detection signal lamp, and signal lamp becomes blue from red, indicate that detection device starts, together
When detection device bring into operation, carry out the detection of the project, signal lamp is to mean the detection of the detection project time of blue
Time, when signal lamp is red, i.e., the project completes detection, into next station, is sequentially completed every detection, first car
After completing all detection projects, timer can show the vehicle from area to be checked is entered to the time completed used in detection;
S104, design of Simulation unit can record the detection time and detection line arrangement of each car, then replace design scheme, become
Change the position of detection device, change the distance between detection device, form different design schemes, with identical auto model come
Analog detection process selects optimal design scheme eventually by the contrasting detection time.
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CN201610739612.1A CN106404419B (en) | 2016-08-25 | 2016-08-25 | A kind of mobile testing line analogue system and method |
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CN201610739612.1A CN106404419B (en) | 2016-08-25 | 2016-08-25 | A kind of mobile testing line analogue system and method |
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CN106404419B true CN106404419B (en) | 2018-10-30 |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201732004U (en) * | 2010-07-13 | 2011-02-02 | 合肥市强科达科技开发有限公司 | Process recorder of vehicle detection line |
WO2012071776A1 (en) * | 2010-11-29 | 2012-06-07 | 中国科学院深圳先进技术研究院 | Slip rate detection method and detection system for electric vehicle |
CN202501984U (en) * | 2012-03-20 | 2012-10-24 | 厦门市计量检定测试院 | Motor vehicle detection line process recorder |
CN103308324A (en) * | 2013-06-25 | 2013-09-18 | 吉林大学 | Intelligent comprehensive performance detection system for vehicle |
CN206387579U (en) * | 2016-08-25 | 2017-08-08 | 山西省交通科学研究院 | A kind of mobile testing line analogue system |
-
2016
- 2016-08-25 CN CN201610739612.1A patent/CN106404419B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201732004U (en) * | 2010-07-13 | 2011-02-02 | 合肥市强科达科技开发有限公司 | Process recorder of vehicle detection line |
WO2012071776A1 (en) * | 2010-11-29 | 2012-06-07 | 中国科学院深圳先进技术研究院 | Slip rate detection method and detection system for electric vehicle |
CN202501984U (en) * | 2012-03-20 | 2012-10-24 | 厦门市计量检定测试院 | Motor vehicle detection line process recorder |
CN103308324A (en) * | 2013-06-25 | 2013-09-18 | 吉林大学 | Intelligent comprehensive performance detection system for vehicle |
CN206387579U (en) * | 2016-08-25 | 2017-08-08 | 山西省交通科学研究院 | A kind of mobile testing line analogue system |
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