CN207175258U - Radio communication Bridge Erector safety monitoring system based on ZigBee - Google Patents
Radio communication Bridge Erector safety monitoring system based on ZigBee Download PDFInfo
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- CN207175258U CN207175258U CN201721266447.9U CN201721266447U CN207175258U CN 207175258 U CN207175258 U CN 207175258U CN 201721266447 U CN201721266447 U CN 201721266447U CN 207175258 U CN207175258 U CN 207175258U
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- acquisition unit
- data acquisition
- safety monitoring
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Abstract
It the utility model is related to Bridge Erector safety monitoring technology field, and disclose a kind of radio communication Bridge Erector safety monitoring system based on ZigBee, including preceding overhead traveling crane and rear overhead traveling crane, preceding overhead traveling crane includes data acquisition unit one and data acquisition unit two, and the input of data acquisition unit one is electrically connected with the output end of altimeter coder, lateral displacement and weight sensor.The radio communication Bridge Erector safety monitoring system based on ZigBee, by building wireless communication module, wireless communication technology of the wireless communication module based on ZigBee is designed, ZigBee technology be it is a kind of closely, low complex degree, low-power consumption, low rate, the bidirectional wireless communication technology of low cost, because the monitoring of Bridge Erector safety monitoring system is apart from short, and Bridge Erector safety monitoring system have typically have periodic data, intermittent data and the application of low reaction time data transmission, so as to substantially increase the efficiency of the radio communication Bridge Erector safety monitoring system data transfer based on ZigBee.
Description
Technical field
It the utility model is related to and Bridge Erector safety monitoring technology field, specially a kind of radio communication based on ZigBee
Bridge Erector safety monitoring system.
Background technology
Bridge Erector security monitoring management system is brand-new intelligent Bridge Erector pre-warning system for monitoring and information system management
System, it is capable of the safe operation of comprehensive guarantee Bridge Erector, includes the anti-overload of Bridge Erector, prevents spacing, anti-tipping, anti-wind speed etc.
Big function, using the teaching of the invention it is possible to provide the real-time early warning of crane operating status and control, be collection accurate measurement, artificial intelligence, automatically control
Etc. a variety of new and high technologies in the electronic system product and information management system of one.Bridge Erector security monitoring management system is according to most
New nation's inspection rule, which are designed, simultaneously to be manufactured, mainly realize the real-time monitoring of crane, fault analysis and handling, data acquisition, operation maintenance,
Production leadtime and the analysis of overall plant equipment behaviour in service, are exported for the result of statistics and analysis in a manner of form, can
It is effective to help maintenance personal's monitoring and service crane.Existing Bridge Erector safety monitoring system safety monitoring system is still endless
Kind, some associated safety data need manually to be monitored, then fill in Monitoring Data information by operating personnel and carry out data reflection,
Cause safety problem to be difficult to the very first time to be solved, therefore, we have proposed a kind of radio communication bridge formation based on ZigBee
Machine safety monitoring system solves the above problems.
Utility model content
(1) technical problem solved
In view of the shortcomings of the prior art, the utility model provides a kind of radio communication Bridge Erector safety based on ZigBee
Monitoring system, possess the advantages of data monitoring can feed back to control main frame with the very first time, solve prior art data monitoring
The problem of data imperfection and slower transmission speed.
(2) technical scheme
To realize that above-mentioned data monitoring can feed back to the purpose of control main frame with the very first time, the utility model provides as follows
Technical scheme:A kind of radio communication Bridge Erector safety monitoring system based on ZigBee, including preceding overhead traveling crane and rear overhead traveling crane, it is described
Preceding overhead traveling crane includes data acquisition unit one and data acquisition unit two, and the input of the data acquisition unit one is electrically connected with height and compiled
The output end of code device, lateral displacement and weight sensor, the input of the data acquisition unit one are electrically connected with lifting braking
Device, the output end that cross spacing switch is left and cross spacing switch is right, the input of the data acquisition unit two are electrically connected with
The output end of longitudinal encoder, longitudinal front limit switch and longitudinal rear limit switch, the data acquisition unit one and data
The output end of collector two is electrically connected with the input of wireless communication module, the input electrical connection of the wireless communication module
There is the output end of data acquisition unit three and data acquisition unit four, the input of the data acquisition unit three is electrically connected with bridge machine horizontal stroke
To encoder, bridge machine longitudinal direction encoder and horizontal right limit, the output end of horizontal left limit, the data acquisition unit four it is defeated
Enter the output end that end is electrically connected with air velocity transducer, perpendicularity sensor and levelness sensor, the wireless communication module
Output end be electrically connected with the input of signal amplifier, the output end of the signal amplifier is electrically connected with the defeated of control main frame
Enter end, the output end of the control main frame is electrically connected with the input of alarm module, the output end electrical connection of the control main frame
There is the input of display module.
Preferably, each structure all same of the preceding overhead traveling crane and rear overhead traveling crane.
Preferably, the rear data acquisition unit one of overhead traveling crane and the output end of data acquisition unit two are electrically connected with wirelessly
The input of communication module.
Preferably, the input of the control main frame is electrically connected with bridge electromechanics source module.
Preferably, wireless communication technology of the wireless communication module based on ZigBee is designed.
Preferably, the display module is touch-screen, and the resolution ratio of the touch-screen is 1024 × 768, and touch-screen hangs down
Straight visible angle is 150 °, and the screen type of touch-screen is LED touch screens.
Preferably, the altimeter coder, longitudinal encoder, bridge machine transverse direction encoder and bridge machine longitudinal direction encoder are
Optical rotary encoder, the performance of optical rotary encoder support 2000 revs/min for chip, and the output of optical rotary encoder is
Two rectangle orthogonal pulses of AB.
(3) beneficial effect
Compared with prior art, the utility model provides a kind of radio communication Bridge Erector security monitoring based on ZigBee
System, possesses following beneficial effect:
1st, the radio communication Bridge Erector safety monitoring system based on ZigBee is somebody's turn to do, by building wireless communication module, wirelessly
Wireless communication technology of the communication module based on ZigBee is designed, ZigBee technology be it is a kind of closely, low complex degree, low work(
Consumption, low rate, the bidirectional wireless communication technology of low cost, because the monitoring of Bridge Erector safety monitoring system is apart from short, and build bridge
Machine safety monitoring system has the application for typically having periodic data, intermittent data and the transmission of low reaction time data, from
And the efficiency of the radio communication Bridge Erector safety monitoring system data transfer based on ZigBee is substantially increased, while also reduce
Construction cost.
2nd, the radio communication Bridge Erector safety monitoring system based on ZigBee is somebody's turn to do, by setting data acquisition unit one, data
Collector two, data acquisition unit three and data acquisition unit four, real-time collecting monitoring is carried out to the secure data on diverse location,
ZigBee wireless communication technology is recycled to feed back data in time, so as to substantially increase this based on the wireless of ZigBee
The practicality of communication Bridge Erector safety monitoring system.
Brief description of the drawings
Fig. 1 is Tthe utility model system schematic diagram.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out
Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The every other embodiment obtained, belong to the scope of the utility model protection.
Referring to Fig. 1, a kind of radio communication Bridge Erector safety monitoring system based on ZigBee, including preceding overhead traveling crane and after
Each structure all same of overhead traveling crane, preceding overhead traveling crane and rear overhead traveling crane, the data acquisition unit one of rear overhead traveling crane and data acquisition unit two
Output end is electrically connected with the input of wireless communication module, and wireless communication technology of the wireless communication module based on ZigBee is carried out
Design, by building wireless communication module, wireless communication technology of the wireless communication module based on ZigBee is designed, ZigBee
Technology be it is a kind of closely, low complex degree, low-power consumption, low rate, the bidirectional wireless communication technology of low cost, due to Bridge Erector pacify
The monitoring of full monitoring system is apart from short, and Bridge Erector safety monitoring system has typically has periodic data, intermittent data
The application transmitted with low reaction time data, so as to substantially increase the radio communication Bridge Erector security monitoring based on ZigBee
The efficiency of system data transmission, while construction cost is also reduced, preceding overhead traveling crane includes data acquisition unit one and data acquisition unit
Two, the input of data acquisition unit one is electrically connected with the output end of altimeter coder, lateral displacement and weight sensor, data
The output end that the input of collector one is electrically connected with lifting brake, cross spacing switch is left and cross spacing switch is right,
The input of data acquisition unit two is electrically connected with the output of longitudinal encoder, longitudinal front limit switch and longitudinal rear limit switch
The output end of end, data acquisition unit one and data acquisition unit two is electrically connected with the input of wireless communication module, channel radio
The input of news module is electrically connected with the output end of data acquisition unit three and data acquisition unit four, the input of data acquisition unit three
End is electrically connected with bridge machine transverse direction encoder, bridge machine longitudinal direction encoder and horizontal right limit, the output end of horizontal left limit, height
Encoder, longitudinal encoder, bridge machine transverse direction encoder and bridge machine longitudinal direction encoder are optical rotary encoder, and photoelectricity rotates
The performance of encoder is that chip supports 2000 revs/min, and the output of optical rotary encoder is two rectangle orthogonal pulses of AB, data
The input of collector four is electrically connected with the output end of air velocity transducer, perpendicularity sensor and levelness sensor, passes through
Data acquisition unit one, data acquisition unit two, data acquisition unit three and data acquisition unit four are set, to the safety on diverse location
Data carry out real-time collecting monitoring, recycle ZigBee wireless communication technology to feed back data in time, so as to carry significantly
It is high should the radio communication Bridge Erector safety monitoring system based on ZigBee practicality, the output end of wireless communication module is electrically connected
The input of signal amplifier is connected to, the output end of signal amplifier is electrically connected with the input of control main frame, control main frame
Output end is electrically connected with the input of alarm module, and the output end of control main frame is electrically connected with the input of display module, display
Module is touch-screen, and the resolution ratio of touch-screen is 1024 × 768, and the plumb visible angle of touch-screen is 150 °, the screen of touch-screen
Curtain-like type is LED touch screens, and the input of control main frame is electrically connected with bridge electromechanics source module.
In summary, the radio communication Bridge Erector safety monitoring system based on ZigBee is somebody's turn to do, by building wireless telecommunications mould
Block, wireless communication technology of the wireless communication module based on ZigBee are designed, ZigBee technology be it is a kind of closely, low complexity
Degree, low-power consumption, low rate, the bidirectional wireless communication technology of low cost, because the monitoring of Bridge Erector safety monitoring system is apart from short,
And Bridge Erector safety monitoring system has typically have periodic data, intermittent data and low reaction time data to transmit to answer
With so as to substantially increase the efficiency of the radio communication Bridge Erector safety monitoring system data transfer based on ZigBee, simultaneously
Also reduce construction cost.
The radio communication Bridge Erector safety monitoring system based on ZigBee, by setting data acquisition unit one, data to adopt
Storage two, data acquisition unit three and data acquisition unit four, real-time collecting monitoring is carried out to the secure data on diverse location, then
Data are fed back in time using ZigBee wireless communication technology, so as to substantially increase the channel radio based on ZigBee
Believe the practicality of Bridge Erector safety monitoring system.
The correlation module being related in the system is hardware system module or is prior art Computer Software journey
The functional module that sequence or agreement are combined with hardware, computer software programs or agreement involved by the functional module itself
The technology being well known to those skilled in the art, it is not the improvements of the system;The system is improved between each module
Interaction relationship or annexation, as the overall construction of system is improved, solved to solve the system
Relevant art problem.
While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art,
It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from principle of the present utility model and spirit, repaiied
Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.
Claims (7)
1. a kind of radio communication Bridge Erector safety monitoring system based on ZigBee, including preceding overhead traveling crane and rear overhead traveling crane, its feature
It is:The preceding overhead traveling crane includes data acquisition unit one and data acquisition unit two, and the input of the data acquisition unit one is electrically connected
It is connected to the output end of altimeter coder, lateral displacement and weight sensor, the input electrical connection of the data acquisition unit one
There is lifting brake, the output end that cross spacing switch is left and cross spacing switch is right, the input of the data acquisition unit two
End is electrically connected with the output end of longitudinal encoder, longitudinal front limit switch and longitudinal rear limit switch, the data acquisition unit
One and the output end of data acquisition unit two be electrically connected with the input of wireless communication module, the wireless communication module it is defeated
Enter the output end that end is electrically connected with data acquisition unit three and data acquisition unit four, the input of the data acquisition unit three is electrically connected
Bridge machine transverse direction encoder, bridge machine longitudinal direction encoder and horizontal right limit, the output end of horizontal left limit, the data are connected to adopt
The input of storage four is electrically connected with the output end of air velocity transducer, perpendicularity sensor and levelness sensor, the nothing
The output end of line communication module is electrically connected with the input of signal amplifier, and the output end of the signal amplifier is electrically connected with control
The input of main frame processed, the output end of the control main frame are electrically connected with the input of alarm module, the control main frame it is defeated
Go out the input that end is electrically connected with display module.
2. a kind of radio communication Bridge Erector safety monitoring system based on ZigBee according to claim 1, its feature exist
In:Each structure all same of the preceding overhead traveling crane and rear overhead traveling crane.
3. a kind of radio communication Bridge Erector safety monitoring system based on ZigBee according to claim 1, its feature exist
In:The data acquisition unit one of overhead traveling crane and the output end of data acquisition unit two are electrically connected with the defeated of wireless communication module after described
Enter end.
4. a kind of radio communication Bridge Erector safety monitoring system based on ZigBee according to claim 1, its feature exist
In:The input of the control main frame is electrically connected with bridge electromechanics source module.
5. a kind of radio communication Bridge Erector safety monitoring system based on ZigBee according to claim 1, its feature exist
In:Wireless communication technology of the wireless communication module based on ZigBee is designed.
6. a kind of radio communication Bridge Erector safety monitoring system based on ZigBee according to claim 1, its feature exist
In:The display module is touch-screen, and the resolution ratio of the touch-screen is 1024 × 768, and the plumb visible angle of touch-screen is
150 °, the screen type of touch-screen is LED touch screens.
7. a kind of radio communication Bridge Erector safety monitoring system based on ZigBee according to claim 1, its feature exist
In:The altimeter coder, longitudinal encoder, bridge machine transverse direction encoder and bridge machine longitudinal direction encoder are photoelectricity rotary coding
Device, the performance of optical rotary encoder support 2000 revs/min for chip, the output of optical rotary encoder for two rectangles of AB just
Hand over pulse.
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CN201721266447.9U CN207175258U (en) | 2017-09-19 | 2017-09-19 | Radio communication Bridge Erector safety monitoring system based on ZigBee |
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CN201721266447.9U CN207175258U (en) | 2017-09-19 | 2017-09-19 | Radio communication Bridge Erector safety monitoring system based on ZigBee |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110955209A (en) * | 2019-11-27 | 2020-04-03 | 中交一公局第六工程有限公司 | Safety control system and monitoring method for super-huge bridge girder erection machine |
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2017
- 2017-09-19 CN CN201721266447.9U patent/CN207175258U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110955209A (en) * | 2019-11-27 | 2020-04-03 | 中交一公局第六工程有限公司 | Safety control system and monitoring method for super-huge bridge girder erection machine |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
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Granted publication date: 20180403 Termination date: 20190919 |