CN105222879B - The long-range self-diagnosable system and its self-diagnosing method of complicated dynamic weighing sensing network - Google Patents
The long-range self-diagnosable system and its self-diagnosing method of complicated dynamic weighing sensing network Download PDFInfo
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- CN105222879B CN105222879B CN201510598001.5A CN201510598001A CN105222879B CN 105222879 B CN105222879 B CN 105222879B CN 201510598001 A CN201510598001 A CN 201510598001A CN 105222879 B CN105222879 B CN 105222879B
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Abstract
The invention discloses a kind of long-range self-diagnosable systems of complicated dynamic weighing sensing network, it is related to Vehicle weigh-in-motion technology field, including being located at the dynamic weighing equipment of multiple weighing areas and the server of distal end, work state information of the dynamic weighing equipment for dynamic weighing and record dynamic weighing equipment, and the work state information of equipment is uploaded onto the server, server is used to receive and process the work state information of equipment, judge dynamic weighing equipment whether failure.Beneficial effects of the present invention:Make full use of existing weighing area, effectively save Resources for construction.Server collects the work state information of each dynamic weighing equipment, its work state information is compared and analyzed, abnormal data is found out, the weighing area where abnormal data accurate judgement faulty equipment and faulty equipment source, effectively save time cost and fund cost.
Description
Technical field
The present invention relates to Vehicle weigh-in-motion technology field, more particularly to a kind of complicated dynamic weighing sensing network it is long-range
Self-diagnosable system and method.
Background technology
The development of transportation plays the development of the national economy positive impetus, while going into overdrive to rectify public
Road haulage vehicle overrun and overload phenomenon also becomes inevitable requirement.Currently, widely applied dynamic weighing system on a highway
System (Weigh in Motion, abbreviation WIM) can effectively administer vehicle overload overloading, while also being brought for fee collection can
The data leaned on are supported, but dynamic weighing system has certain defect at work, wherein more typical case:Vehicle by
In all dynamic weighing areas, once thering is some or the multiple equipment in some or multiple dynamic weighing areas to break down, then it can cause
There is gross error in final weighing data, directly affects overload remediation effect and charge result, or even cause major traffic accidents, reduces
Current rate.Thus the self-checking system of dynamic weighing system is developed, whole section can be equipped with multiple weighing areas, be tied in the section
Trading post is arranged in spot, and existing self-checking system is detected detection device in each weighing area setting server, needs in this way
Multiple servers are configured, are resulted in waste of resources.Meanwhile existing self-checking system needs a pair of each dress in detection device
It sets and is checked, need the plenty of time.
In summary, it is necessary to design the long-range self-diagnosable system under a kind of complicated dynamic weighing sensing network, effectively subtract
Few Resources for construction, can effectively accurate detection device whether failure, system autodiagnosis is realized, to solve the above problems.
Invention content
In view of this, the technical problem to be solved in the present invention be to provide it is remote under a kind of complicated dynamic weighing sensing network
Journey self-diagnosable system, effectively reduces Resources for construction, can effectively accurate detection device whether failure, realize system autodiagnosis,
Effectively save time cost and fund cost.
The present invention solves above-mentioned technical problem by following technological means:
The present invention provides the long-range self-diagnosable systems under a kind of complicated dynamic weighing sensing network, including are located at more
The dynamic weighing equipment of a weighing area and the server before trading post after all weighing areas, the dynamic weighing
Equipment is used for the work state information of dynamic weighing and recording equipment, and the work state information of equipment is uploaded onto the server,
The server is used to receive and process the work state information of equipment, judge the dynamic weighing equipment whether failure.Institute
Server is set before trading post after some weighing areas, makes full use of existing dynamic weighing region, institute is completed in vehicle
Server, effectively save Resources for construction are set again after having dynamic weighing.Dynamic weighing equipment records the working condition of each equipment
Information, and the work state information of each equipment is uploaded onto the server, server judges according to the work state information of equipment
Equipment whether failure, realize self-diagnostic function.
Further, dynamic weighing equipment includes multiple vehicle equipments, for detecting whether vehicle enters weighing area;
Multiple weighting platforms are used to support the vehicle into weighing area, multiple weighing sensors, for acquiring the vehicle into weighing area
Weight data;Multiple Vehicles separation equipment, for judging whether vehicle passes through weighting platform completely;Multiple axle identification equipment, are used for
Identify the spindle-type of the vehicle and total number of axle;Multiple weighing instruments, the work state information for monitoring dynamic weighing equipment in real time
With processing weighing data, the vehicle equipment, weighting platform, weighing sensor, axle identification equipment, Vehicles separation equipment difference
It is connect with weighing instrument, the weighing instrument is connect with server, and the work state information of the dynamic weighing equipment is uploaded to clothes
Business device.
Dynamic weighing equipment is arranged in each weighing area, weighs to the vehicle of process, weighing instrument carries out number of weighing
According to the work state information for handling and detecting in real time each equipment, the work state information of each equipment is sent to server,
Data analysis source is provided for server.
Further, server includes data reception module, the dynamic weighing equipment for receiving each dynamic weighing region
Work state information;Data analysis module, for believing the working condition of the correspondence dynamic weighing equipment of different weighing areas
Breath carries out analysis comparison, finds out abnormal data;Fault determination module, for the equipment corresponding to abnormal data to be determined as failure
Equipment, the data reception module, data analysis module and fault determination module are sequentially connected with.
Server is the data processing centre of whole system, receives the equipment working state information of each weighing area, and
By the work state information comparative analysis of the correspondence dynamic weighing equipment of different weighing areas, abnormal data is found out, judgement is abnormal
Equipment corresponding to data is faulty equipment, and it is certain effectively to diagnose and determine the generation area of equipment fault and be accurately positioned
Failure has occurred in equipment.
Further, server further includes failure notification module, and the failure notification module is connect with fault determination module.
Further, dynamic weighing equipment is axis weight formula, axis group formula, portable or complete-vehicle-type.
The invention also includes the long-range self-diagnosing methods under complicated dynamic weighing sensing network, specifically include following steps:
S1:The work state information that weighing area, the dynamic weighing equipment of weighing area and equipment are presented is distinguished
Formula processing;
S2:The dynamic weighing equipment of each weighing area uploads onto the server the equipment working state information;
S3:Server receiving device work state information, the corresponding equipment working state information in each weighing area into
Row comparison, finds out the abnormal data in work state information, the corresponding equipment of abnormal data is determined as faulty equipment, then is executed
S4;If not noting abnormalities data after comparison, illustrates fault-free equipment, then execute S5;
S4:Pass through weighing area where the differentiation information failure judgement equipment of faulty equipment and equipment fault source;
S5:Server continues collecting device work state information.
Further, in S1, the dynamic weighing equipment includes multiple vehicle equipments, multiple weighting platforms, multiple biographies of weighing
Sensor, multiple axle identification equipment, multiple Vehicles separation equipment and multiple weighing instruments.
Further, in S1, the differentiated processing is node serial number mode, and specific method is:By weighing area, Mei Geche
The work that detection device, weighting platform, weighing sensor, axle identification equipment, Vehicles separation equipment and weighing instrument and each equipment are presented
Differentiation is numbered as status information.
Beneficial effects of the present invention:
Long-range self-diagnosable system under the complicated dynamic weighing sensing network of the present invention, makes full use of existing Weighing Area
Domain, effectively save Resources for construction reduce construction cost, and server collects the work state information of each dynamic weighing equipment, will
Its work state information compares and analyzes, and finds out abnormal data, the title where abnormal data accurate judgement faulty equipment
Weight region and faulty equipment source, effectively save time cost and fund cost.
Long-range self-diagnosing method under the complicated dynamic weighing sensing network of the present invention, by dynamic weighing region and equipment into
Row differentiation is handled, and the later stage is facilitated accurately to trace the position of faulty equipment, and server is in each equipment of comparative analysis by collecting
Existing work state information, finds out the abnormal data in work state information, and system judges the equipment corresponding to abnormal data
For faulty equipment, and by residing for faulty equipment weighing area and be specifically that some equipment fault is timely feedbacked to staff,
Staff can in time overhaul equipment.The self-diagnosing method of system can quick and precisely judge weighing-appliance failure, and energy
The position of positioning failure equipment avoids staff from checking equipment one by one, saves time cost and fund cost, improves work effect
Rate.
Description of the drawings
The invention will be further described with reference to the accompanying drawings and examples.
Fig. 1 is the functional block diagram of the embodiment of the present invention 1.
Fig. 2 is the functional block diagram of the server of the embodiment of the present invention 1.
Fig. 3 is the work flow diagram of the embodiment of the present invention 2.
Specific implementation mode
Below with reference to attached drawing, the present invention is described in detail,
Embodiment 1
Such as Fig. 1, shown in 2, the long-range self-diagnosable system under complicated dynamic weighing sensing network of the invention, including position respectively
In the dynamic weighing equipment of multiple weighing areas and the server of distal end, the dynamic weighing equipment is used for dynamic weighing and record
The work state information of equipment, and the work state information of equipment is uploaded onto the server, the server is for receiving and locating
Manage equipment work state information, judge the dynamic weighing equipment whether failure.Long-range self-diagnosable system makes full use of existing
Dynamic weighing region, to server transmission data after vehicle completes all dynamic weighings, without in each dynamic weighing area
Server is arranged in domain, and effectively save Resources for construction reduces construction cost.Dynamic weighing equipment records the working condition of each equipment
Information, and the work state information of each equipment is uploaded onto the server, server judges according to the work state information of equipment
Equipment whether failure, realize system autodiagnosis, be not necessarily to hand inspection.
Dynamic weighing equipment includes multiple vehicle equipments, for detecting whether vehicle enters weighing area;Multiple titles
Platform is used to support the vehicle into weighing area;Multiple weighing sensors, for acquiring the vehicle weight number into weighing area
According to;Multiple axle identification equipment, for identification spindle-type of the vehicle and total number of axle;Multiple Vehicles separation equipment, for judging
Whether vehicle passes through weighting platform completely;Multiple weighing instruments, work state information and processing for monitoring dynamic weighing equipment in real time
Weighing data, the vehicle equipment, weighting platform, weighing sensor, axle identification equipment, Vehicles separation equipment respectively with weigh
Instrument connects, and the weighing instrument connect with server, the work state information of the dynamic weighing equipment is uploaded onto the server.Claim
Weight instrument is attached with server by network.The setting of dynamic weighing equipment carries out the vehicle of process in each weighing area
It weighs, weighing instrument processing weighing data and the work state information for detecting each equipment in real time, by the working condition of each equipment
Information is sent to server, and data analysis source is provided for server.
As a further improvement of the above technical scheme, server includes data reception module, for receiving each dynamic
The work state information of the dynamic weighing equipment of weighing area;Data analysis module, for different weighing areas are corresponding dynamic
The work state information of state weighing-appliance carries out analysis comparison, finds out abnormal data;Fault determination module is used for abnormal data
Corresponding equipment is determined as that faulty equipment, the data reception module, data analysis module and fault determination module sequentially connect
It connects.Server first receives the equipment working state information in each dynamic weighing region, and the corresponding dynamic in different weighing areas is claimed
The work state information of heavy equipment carries out analysis comparison, finds out abnormal data, abnormal data is determined as faulty equipment, effectively
Judge some equipment fault of some weighing area.
As a further improvement of the above technical scheme, server further includes failure notification module, the failure notification mould
Block is connect with fault determination module.Failure notification module notifies staff to repair, work in time when finding some equipment fault
Make personnel and directly find the faulty equipment to the weighing area broken down, without checking each equipment, saves maintenance time, carry
High working efficiency.
As a further improvement of the above technical scheme, dynamic weighing equipment is axis weight formula, axis group formula, portable or vehicle
Formula.Dynamic weighing equipment is not limited to axis weight formula (such as quartz, narrow bent plate, wide bent plate, single weighing platform, double scale platform), axis group formula, portable
Or complete-vehicle-type (such as complete-vehicle-type dynamic balance), in addition, since complete-vehicle-type scale requires vehicle cannot be excessively high by speed, track
It should shift to an earlier date if vehicle scale is installed and limit speed marker in respective stretch setting vehicle.
Long-range self-diagnosable system under complicated dynamic weighing sensing network, makes full use of existing weighing area, effectively saves
About Resources for construction reduces construction cost, and server collects the work state information of each dynamic weighing equipment, by its working condition
Information compares and analyzes, and finds out abnormal data, the weighing area where abnormal data accurate judgement faulty equipment and event
Hinder equipment sources, effectively save time cost and fund cost.
Embodiment 2
As shown in figure 3, the invention also includes the long-range self-diagnosing methods under a kind of complicated dynamic weighing sensing network, specifically
Include the following steps:
S1:By each vehicle equipment in the dynamic weighing equipment of each weighing area, weighting platform, Vehicles separation equipment
The work state information presented with weighing instrument and each equipment distinguishes formula processing.By each of weighing area and dynamic weighing equipment
A equipment distinguishes, convenient for that can trace the position of faulty equipment in the later stage.Differentiated processing is by the way of node serial number
Processing has corresponding number to distinguish each weighing area, each equipment, can correspond to that find be some by number
Some equipment of weighing area.Certainly, in the specific implementation can also use other differentiation weighing areas and equipment method into
Row is implemented.
Specifically operation is the node numbering method that the present embodiment uses:The Xn that dynamic weighing region is defined as X1, X2 ...,
Each dynamic weighing region includes that multiple vehicle equipments, multiple weighting platforms, multiple weighing sensors, multiple axle identifications are set
Standby, multiple Vehicles separation equipment and multiple weighing instruments, the vehicle equipment of dynamic weighing region X1, weighting platform, weighing sensor,
Axle identification equipment, Vehicles separation equipment and weighing instrument are respectively defined as A1, B1, C1, D1, E1, F1, in the X1 of dynamic weighing region
The work state information that all vehicle equipment A1 are presented is respectively defined as A1.1, A1.2 ... A1.m;Dynamic weighing region
The work state information that all weighting platform B1 are presented in X1 is respectively defined as B1.1, B1.2 ... B1.m;In the X1 of dynamic weighing region
The work state information that all weighing sensor C1 are presented is respectively defined as C1.1, C1.2 ... C1.m;Dynamic weighing region X1
In the work state information that presents of all axle identification equipment D1 be respectively defined as D1.1, D1.2 ... D1.m, dynamic weighing area
The work state information of all Vehicles separation equipment E1 presentations is respectively defined as E1.1, E1.2 in the X1 of domain ..., and E1.m, dynamic claim
F1.1, F1.2 is respectively defined as and weighs the work state information that all weighing instruments are presented in the X1 of region ... F1.m, and so on, it moves
Vehicle equipment, weighting platform, weighing sensor, axle identification equipment, Vehicles separation equipment and the weighing instrument of state Weighing Area Xn point
It is not defined as An, Bn, Cn, Dn, En, Fn, the work state information that all vehicle equipment An are presented in dynamic weighing area Xn
For An.1, An.2 ... An.m;The work state information that all weighting platform Bn are presented in dynamic weighing area Xn be respectively defined as Bn.1,
Bn.2……Bn.m;The work state information that all weighing sensor Cn are presented in dynamic weighing area Xn be respectively defined as Cn.1,
Cn.2……Cn.m;The work state information that all axle identification equipment Dn are presented in dynamic weighing area Xn is respectively defined as
The work state information that all Vehicles separation equipment En are presented in Dn.1, Dn.2 ... Dn.m, dynamic weighing area Xn defines respectively
For En.1, En.2 ... En.m, the work state information that all weighing instrument Fn are presented in dynamic weighing area Xn is respectively defined as
Fn.1, Fn.2 ... Fn.m, wherein n and m is positive integer.
S2:The weighing instrument of each weighing area uploads onto the server the equipment working state information.Weighing instrument is every
The work state information that a equipment is presented is sent to server, so that server is collected and handles data.
S3:Server receiving device work state information, the corresponding equipment working state information in each weighing area into
Row comparison, finds out abnormal data, the corresponding equipment of abnormal data is determined as faulty equipment, then executes S4;If working condition
It is no different regular data in information, illustrates no equipment fault, then executes S5.
Server receives the work state information of each equipment, and the corresponding equipment working state in each weighing area is carried out
A1.m to An.m is numbered corresponding work state information and compared by comparative analysis one by one, such as:A1.1 and A2.1 and A3.1
Until An.1 is compared;A1.2 and A2.2 and A3.2 is compared up to An.2, and so on, A1.m and A2.m and A3.m is until An.m pairs
Than the equipment working state information whole comparative analysis for being A by number.Similarly, the equipment working state of number B, C, D, E, F
Information comparison is all made of the method, finds out abnormal data, the corresponding equipment of these abnormal datas is determined as equipment fault by system.
If not occurring abnormal data in work state information, illustrate that equipment all works normally, equipment fault does not occur, then execute
S5。
S4:Pass through weighing area where the differentiation information failure judgement equipment of faulty equipment and equipment fault source.According to
Abnormal data is directly targeted to the faulty equipment in corresponding dynamic weighing area, and directly determines failure according to the number of abnormal data
Some component devices in equipment are the source of trouble.
S5:Server continues the work state information of collecting device, continues to analyze comparative apparatus work state information.
Dynamic weighing region and equipment are distinguished place by the long-range self-diagnosing method under complicated dynamic weighing sensing network
Reason facilitates the later stage accurately to trace the position of faulty equipment, and server is by collecting the work presented with each equipment of comparative analysis
Status information, finds out the abnormal data in work state information, and the equipment corresponding to abnormal data is determined as that failure is set by system
It is standby, and the weighing area residing for faulty equipment is timely feedbacked with specifically some equipment fault to staff, staff
Equipment can be overhauled in time.The self-diagnosing method of system can quick and precisely judge weighing-appliance failure, and can positioning failure
The position of equipment avoids staff from checking equipment one by one, saves time cost and fund cost, improves working efficiency.
Finally illustrate, the above examples are only used to illustrate the technical scheme of the present invention and are not limiting, although with reference to compared with
Good embodiment describes the invention in detail, it will be understood by those of ordinary skill in the art that, it can be to the skill of the present invention
Art scheme is modified or replaced equivalently, and without departing from the objective and range of technical solution of the present invention, should all be covered at this
In the right of invention.
Claims (7)
1. the long-range self-diagnosable system of complicated dynamic weighing sensing network, it is characterised in that:Including being located at multiple Weighing Areas
The dynamic weighing equipment in domain and the server of distal end, the dynamic weighing equipment is for dynamic weighing and record dynamic weighing equipment
Work state information, and the work state information of equipment is uploaded onto the server, the server is set for receiving and processing
Standby work state information, judge the dynamic weighing equipment whether failure, server includes data reception module, for receiving
The work state information of the dynamic weighing equipment in each dynamic weighing region;Data analysis module is used for different weighing areas
The work state information of correspondence dynamic weighing equipment carry out analysis comparison, find out abnormal data;Fault determination module, being used for will
Equipment corresponding to abnormal data is determined as faulty equipment, the data reception module, data analysis module and fault verification mould
Block is sequentially connected with.
2. the long-range self-diagnosable system of complexity dynamic weighing sensing network as described in claim 1, it is characterised in that:It is described dynamic
State weighing-appliance includes multiple vehicle equipments, for detecting whether vehicle enters weighing area;Multiple weighting platforms, are used to support
Into the vehicle of weighing area, multiple weighing sensors, for acquiring the vehicle weight data into weighing area;Multiple wheel shafts
Identification equipment, for identification spindle-type of the vehicle and total number of axle;Multiple Vehicles separation equipment, for judging whether vehicle is complete
Pass through weighting platform;Multiple weighing instruments, the work state information for monitoring dynamic weighing equipment in real time and processing weighing data, it is described
Vehicle equipment, weighting platform, weighing sensor, axle identification equipment, Vehicles separation equipment are connect with weighing instrument respectively, the title
Weight instrument is connect with server, and the work state information of the dynamic weighing equipment is uploaded onto the server.
3. the long-range self-diagnosable system of complexity dynamic weighing sensing network as described in claim 1, it is characterised in that:The clothes
Business device further includes failure notification module, and the failure notification module is connect with fault determination module.
4. the long-range self-diagnosable system of complexity dynamic weighing sensing network as described in claim 1, it is characterised in that:It is described dynamic
State weighing-appliance is axis weight formula, axis group formula, portable or complete-vehicle-type.
5. the long-range self-diagnosing method of complicated dynamic weighing sensing network, it is characterised in that:Specifically include following steps:
S1:The work state information that weighing area, the dynamic weighing equipment of weighing area and equipment are presented is distinguished at formula
Reason;
S2:The dynamic weighing equipment of each weighing area uploads onto the server the equipment working state information;
S3:Server receiving device work state information carries out the corresponding equipment working state information in each weighing area pair
Than finding out the abnormal data in work state information, the corresponding equipment of abnormal data being determined as faulty equipment, then executes S4;
If not noting abnormalities data after comparison, illustrate fault-free equipment,
Then execute S5;
S4:Pass through weighing area where the differentiation information failure judgement equipment of faulty equipment and equipment fault source;
S5:Server continues collecting device work state information.
6. the long-range self-diagnosing method of complexity dynamic weighing sensing network as claimed in claim 5, it is characterised in that:The S1
In, the dynamic weighing equipment includes multiple vehicle equipments, multiple weighting platforms, multiple weighing sensors, multiple axle identifications
Equipment, multiple Vehicles separation equipment and multiple weighing instruments.
7. the long-range self-diagnosing method of complexity dynamic weighing sensing network as claimed in claim 6, it is characterised in that:The S1
In, the differentiated processing is node serial number mode, and specific method is:By weighing area, each vehicle equipment, weighting platform,
The work state information that weighing sensor, axle identification equipment, Vehicles separation equipment and weighing instrument and each equipment are presented is compiled
Number distinguish.
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CN106679779B (en) * | 2016-12-12 | 2019-04-12 | 北京万集科技股份有限公司 | A kind of Vehicles separation plant failure detection method and system |
CN109855710B (en) * | 2019-03-11 | 2021-04-27 | 耿建航 | Truck scale weighing state monitoring system and detection method |
CN111457999B (en) * | 2020-04-10 | 2022-04-01 | 上海东普信息科技有限公司 | Express weighing abnormity checking method, device, equipment and storage medium |
CN112130572A (en) * | 2020-09-29 | 2020-12-25 | 重庆市华驰交通科技有限公司 | Electromechanical equipment maintenance individual soldier assisting method and system based on wearable equipment |
CN113110246A (en) * | 2021-05-18 | 2021-07-13 | 山东建筑大学 | Offshore wind power generation infrastructure safety monitoring device |
CN114910151B (en) * | 2022-05-10 | 2024-03-22 | 浙江省计量科学研究院 | Remote fault diagnosis system and method for off-site law enforcement weighing equipment |
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JP2740057B2 (en) * | 1991-07-29 | 1998-04-15 | 株式会社クボタ | Weight measuring device |
CN103542923A (en) * | 2013-11-01 | 2014-01-29 | 江苏三力衡器有限公司 | Intelligent truck scale internet-of-things system |
CN104897260B (en) * | 2015-06-17 | 2017-06-23 | 辽宁因泰立电子信息有限公司 | A kind of intelligent vehicle dynamic weighing system |
CN204964002U (en) * | 2015-09-17 | 2016-01-13 | 重庆市华驰交通科技有限公司 | Complicated developments long -range from diagnostic system of sensor network of weighing |
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