CN102936890A - Remote automatic monitoring system and method for pre-compaction treatment of soft soil foundation - Google Patents
Remote automatic monitoring system and method for pre-compaction treatment of soft soil foundation Download PDFInfo
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Abstract
The invention provides a remote automatic monitoring system and method for pre-compaction treatment of a soft soil foundation, wherein the system comprises a monitoring sensor module, a field control center module and a remote control center module; the detection sensor module comprises a monitoring sensor module which comprises a plurality of automatic sensor groups; the field control center module comprises a plurality of smart measurement and control units and a field control center; the plurality of automatic sensor groups are connected with the corresponding smart measurement and control units, respectively; the smart measurement and control units are in communication connection with the field control center through an Internet of things or a wireless network; and the field control center is in wireless communication connection with the remote control center module. The remote automatic monitoring system provided by the invention is capable of setting up real-time data of formation consolidation key parameters, controlling the consolidation process development of the soil body immediately and controlling the construction quality, and also capable of finally evaluating the reinforcing efficiency and the reinforcing effect of the pre-compaction reinforcing method in Shanghai district, as a result, the measurement accuracy can be effectively improved, the interference of human factors can be avoided and the engineering field line network can be simplified.
Description
Technical field
The invention belongs to the ground monitoring method, relate in particular to remote automation monitoring system and method that the soft foundation precompressed is processed.
Background technology
The many places, Shanghai are in soft foundation, and preloading and vacuum method are processed deep soft foundation, because the advantages such as its method that has is simple, the large-area treatment cost is lower, equipment is simple are used widely.No matter preloading or vacuum method, the process that all exists the precompressed energy to transmit to deep layer also is the attenuation process of energy on the process nature of transmission, has influence on the consolidation process of the deep layer soil body.
And in the precompressed process Soil Parameters be judge whether pre-compressed effect, construction are finished, whether can termination of pumping or the important evidence of unloading.Therefore, in soft foundation precompressed processing procedure, need to carry out comprehensive monitoring to parameters such as ground settlement, soil mass displacement at the deep layer, formation pore water pressures, and according to Analysis on monitoring data, thus Control Engineering safely, enforcement with guaranteeing the quality.
And the monitoring method of using at present mostly is common artificial traditional monitoring, because the restriction of the conditions such as construction technology and on-the-spot machinery, so that there is larger difficulty in traditional monitoring method in application facet:
1. the human factor impact is large, measure error is large, monitoring frequency is lower, can not satisfy the requirement of high-acruracy survey.
2. do not possess real-time, artificial common monitored data has hysteresis quality, is unfavorable for the workmanship security monitoring.
3. in-site measurement labour intensity is large, the data processing is numerous and diverse, can not form automatic monitoring system.
4. can not long-time running monitor, can't assess the subsidence and stabilization of engineering later stage roadbed.
Therefore, the remote automation monitoring system and the method that how to provide a kind of soft foundation precompressed simple in structure, that certainty of measurement is higher to process are the technical problems that those skilled in the art need to be resolved hurrily.
Summary of the invention
The remote automation monitoring system and the method that the object of the present invention is to provide a kind of soft foundation precompressed to process, Effective Raise certainty of measurement, avoid the interference of human factor; Simplified the automation sensor line network of engineering site, made more systematization of monitoring works, integrated and standardization; Reduced the workload of monitoring management, made engineering management work more scientific, efficient.
To achieve the above object, the present invention adopts following technical scheme:
The remote automation monitoring system that a kind of soft foundation precompressed is processed comprises:
The monitoring sensor module comprises the some automation sensor groups that are arranged in the ground, and described automation sensor group is used for gathering the formation consolidation parameter signal of precompressed process, and converts the signal that collects to electronic signal;
The field control center module, comprise some intelligent measurement and control units and field control center, described intelligent measurement and control unit connects with corresponding described automation sensor group, described intelligent measurement and control unit is connected by Internet of Things or wireless network with described field control center, described some intelligent measurement and control units are used for collecting from the electronic signal of described monitoring sensor module, and described field control center is used for the signal that described intelligent measurement and control unit is collected is carried out data analysis and/or graphics process to form diversified monitoring result; And
The remote control center module is connected by wireless network with described field control center module, is used for checking real-time monitoring result for user's Telnet.
Preferably, described remote control center module comprises that remote control center and user login and checks online module that described user logs in and checks online module and the communication connection of described remote control center.
Preferably, described user logins and checks that online module comprises that the technician logins and checks online that module and/or engineering staff log in and check online that module and/or administrative staff log in and check online module.
Preferably, described automation sensor group comprises the automation sensor for the monitoring ground settlement, the automation sensor that is used for the automation sensor of monitoring soil mass displacement at the deep layer and is used for monitoring formation pore water pressure.
The invention also discloses the remote automation monitoring method that a kind of soft foundation precompressed is processed, comprise the steps:
Step 1, each automation sensor group gathers the formation consolidation parameter in precompressed process, and is sent to intelligent measurement and control unit after converting the signal that collects to electronic signal;
After step 2, intelligent measurement and control unit are carried out collection and treatment to the electronic signal that receives, arrive the field control center by Internet of Things or wireless network transmissions;
Step 3, the field control center carries out forming diversified monitoring result after data analysis and/or the graphics process to the data that receive;
Step 4, the user carries out Real Time Monitoring by the remote control center module to the monitoring result at field control center.
Preferably, the remote automation monitoring method that described soft foundation precompressed is processed, the remote automation monitoring system that adopts the soft foundation precompressed to process, the remote automation monitoring system that described soft foundation precompressed is processed comprises the monitoring sensor module, field control center module and remote control center module, described detecting sensor module comprises some automation sensor groups, described field control center module comprises some intelligent measurement and control units and field control center, described some automation sensor groups are connected respectively intelligent measurement and control unit and are connected with correspondence, described intelligent measurement and control unit is connected by Internet of Things or wireless communication with described field control center, and described field control center is connected with described remote control center module radio communication.
Preferably, described remote control center module comprises that remote control center and user login and checks online module, described user logs in and checks online module and the communication connection of described remote control center, project each user can monitor by remote control center, check real time data, be beneficial to control and analysis that construction is processed in the soft foundation precompressed.Preferably, described user logins and checks that online module comprises that the technician logins and checks online that module and/or engineering staff log in and check online that module and/or administrative staff log in and check online module.Preferably, by remote control center monitoring period and monitoring frequency are set.
Preferably, described automation sensor group comprises the automation sensor for the monitoring ground settlement, the automation sensor that is used for the automation sensor of monitoring soil mass displacement at the deep layer and is used for monitoring formation pore water pressure.
Remote automation monitoring system and method that soft foundation precompressed provided by the invention is processed, the remote automation monitoring method of the soft foundation precompressed processing procedure by autonomous innovation, can set up the real time data of formation consolidation key parameter (ground settlement, soil mass displacement at the deep layer, formation pore water pressure), the instant consolidation process development of grasping the soil body, the control construction quality, and finally estimate preloading consolidation method at reinforcing efficient and the consolidation effect of District of Shanghai.
The scene does not exist and disturbs construction and artificial destruction problem among the present invention, and certainty of measurement improves greatly, has avoided the input of a large amount of manpowers, and labour intensity reduces greatly, and can be simultaneously continuous continual observation, can carry out as required stability at later stage and observe; Greatly simplified the automation sensor line network of engineering site, made more systematization of monitoring works, integrated and standardization.The quantity that only need increase intelligent measurement and control unit just can gather the monitored data of a plurality of parameters in different places simultaneously.The engineering staff can carry out the remote monitoring operation by software, greatly reduces the workload of monitoring management, makes more science of engineering management work, and is efficient.
Description of drawings
Remote automation monitoring system and method that soft foundation precompressed of the present invention is processed are provided by following embodiment and accompanying drawing.
Fig. 1 is the schematic diagram of the remote automation monitoring system processed of the soft foundation precompressed of one embodiment of the invention.
Fig. 2 is the flow chart of the remote automation monitoring method processed of the soft foundation precompressed of one embodiment of the invention.
Among the figure, 1-monitoring sensor module, 11-automation sensor, 2-field control center module, 21-intelligent measurement and control unit, 22-field control center, 3-remote control center module, 31-remote control center, 32-technician login and check online that module, 33-engineering staff log in and check online that module, 34-administrative staff log in and check online module.
The specific embodiment
Below with reference to accompanying drawings the present invention is described in more detail, has wherein represented the preferred embodiments of the present invention, should be appreciated that those skilled in the art can revise the present invention described here and still realize advantageous effects of the present invention.Therefore, following description is appreciated that extensively knowing for those skilled in the art, and not as limitation of the present invention.
For purpose of the present invention, feature are become apparent, below in conjunction with accompanying drawing the specific embodiment of the present invention is further described.It should be noted that accompanying drawing all adopts very the form of simplifying and all uses non-accurately ratio, only in order to convenient, the purpose of the aid illustration embodiment of the invention lucidly.
See also Fig. 1, Figure 1 shows that the schematic diagram of the remote automation monitoring system that the soft foundation precompressed of one embodiment of the invention is processed.The remote automation monitoring system that this soft foundation precompressed is processed comprises:
Monitoring sensor module 1, comprise the some automation sensor groups that are arranged in different test points in the ground, each automation sensor group comprises some automation sensors 11, and described automation sensor group is used for gathering the formation consolidation parameter signal (mainly comprising ground settlement, soil mass displacement at the deep layer, formation pore water pressure) of precompressed process and converts the signal that collects to electronic signal;
Field control center module 2, comprise some intelligent measurement and control units 21 and field control center 22, described intelligent measurement and control unit 21 connects with corresponding described automation sensor group, described intelligent measurement and control unit 21 is connected by Internet of Things or wireless network with described field control center 22, described some intelligent measurement and control units 21 are used for collecting from the electronic signal of described monitoring sensor module 1, and described field control center 22 is used for the signal that described intelligent measurement and control unit 21 is collected is carried out data analysis and/or graphics process to form diversified monitoring result;
And remote control center module 3, described remote control center module 3 and described field control center module 2 are connected by wireless network, and described remote control center module 3 is used for checking real-time monitoring result for user's Telnet.
Because the cable that has omitted between automation sensor 11 and the field control center 22 connects, by intelligent measurement and control unit 21 is set, this intelligent measurement and control unit 21 has been realized merging and the transmission of multiple types monitored data signal, it is the data acquisition receiving terminal that the data that gather via this intelligent measurement and control unit 21 send to the ready-made field control center 22 of engineering, field control center 22 again with the signal that receives by the wireless remote control center that uploads data to of transmission network.And field control center 22 can realize carrying out communication with many intelligent measurement and control units 21 simultaneously, can observe simultaneously the situation of change of different test points at remote control center.
Preferably, described automation sensor group comprises the automation sensor 11 for the monitoring ground settlement, the automation sensor 11 that is used for the automation sensor 11 of monitoring soil mass displacement at the deep layer and is used for monitoring formation pore water pressure.
Preferably, described remote control center module 3 comprises that remote control center 31 and user login and checks online module that described user logs in and checks online module and 31 communication connections of described remote control center.
Preferably, described user logins and checks that online module comprises that the technician logins and checks online that module 32 and/or engineering staff log in and check online that module 33 and/or administrative staff log in and check online module 34.
See also Fig. 2, please ask in conjunction with consulting Fig. 1, Figure 2 shows that the flow chart of the remote automation monitoring method that the soft foundation precompressed of one embodiment of the invention is processed.The remote automation monitoring method that a kind of soft foundation precompressed provided by the invention is processed comprises the steps:
Step 1, be numbered for all kinds of automation sensors, according to on-site actual situations, layout all kinds of automation sensors are set, each point is laid an automation sensor group, each automation sensor group comprises the automation sensor 11 for the monitoring ground settlement at least, the automation sensor 11 that is used for the automation sensor 11 of monitoring soil mass displacement at the deep layer and is used for monitoring formation pore water pressure, each automation sensor group gathers the formation consolidation parameter in precompressed process, and is sent to intelligent measurement and control unit 21 after converting the signal that collects to electronic signal;
Step 2 after 21 pairs of electronic signals that receive of intelligent measurement and control unit are carried out collection and treatment, arrives field control center 22 by Internet of Things or wireless network transmissions;
Step 3, the data of the 22 pairs of receptions in field control center carry out forming diversified monitoring result after data analysis and/or the graphics process;
Step 4, the user carries out Real Time Monitoring by the monitoring result at 3 pairs of field control centers 22 of remote control center module.
Preferably, the remote automation monitoring method that described soft foundation precompressed is processed, the remote automation monitoring system that adopts aforesaid soft foundation precompressed to process, the remote automation monitoring system that described soft foundation precompressed is processed comprises monitoring sensor module 1, field control center module 2 and remote control center module 3, described detecting sensor module 1 comprises some automation sensor groups, described field control center module 2 comprises some intelligent measurement and control units 21 and field control center 22, described some automation sensor groups are connected respectively intelligent measurement and control unit 21 and are connected with correspondence, described intelligent measurement and control unit 2 is connected by Internet of Things or wireless communication with described field control center 22, and described field control center 22 is connected with described remote control center module 3 radio communications.
Preferably, described remote control center module 3 comprises that remote control center 31 and user login and checks online module that described user logs in and checks online module and 31 communication connections of described remote control center.
Preferably, described user logins and checks that online module comprises that the technician logins and checks online that module 32 and/or engineering staff log in and check online that module 33 and/or administrative staff log in and check online module 34.
Preferably, described automation sensor group comprises the automation sensor 11 for the monitoring ground settlement, the automation sensor 11 that is used for the automation sensor 11 of monitoring soil mass displacement at the deep layer and is used for monitoring formation pore water pressure.
Preferably, by remote control center 31 monitoring period and monitoring frequency can be set.
In sum, remote automation monitoring system and method that soft foundation precompressed provided by the invention is processed, the remote automation monitoring method of the soft foundation precompressed processing procedure by autonomous innovation, can set up the real time data of formation consolidation key parameter (ground settlement, soil mass displacement at the deep layer, formation pore water pressure), the instant consolidation process development of grasping the soil body, the control construction quality, and finally estimate preloading consolidation method at reinforcing efficient and the consolidation effect of District of Shanghai.
The present invention, the scene does not exist disturbs construction and artificial destruction problem, certainty of measurement improves greatly, has avoided the input of a large amount of manpowers, labour intensity reduces greatly, and can be simultaneously continuous continual observation, can carry out as required stability at later stage and observe; Greatly simplified the automation sensor line network of engineering site, made more systematization of monitoring works, integrated and standardization.The quantity that only need increase intelligent measurement and control unit just can gather the monitored data of a plurality of parameters in different places simultaneously.The engineering staff can carry out the remote monitoring operation by software, greatly reduces the workload of monitoring management, makes more science of engineering management work, and is efficient.
Obviously, those skilled in the art can carry out various changes and modification to the present invention and not break away from the spirit and scope of the present invention.Like this, if of the present invention these are revised and modification belongs within the scope of claim of the present invention and equivalent technologies thereof, then the present invention also is intended to comprise these changes and modification interior.
Claims (10)
1. the remote automation monitoring system that the soft foundation precompressed is processed is characterized in that, comprising:
The monitoring sensor module comprises the some automation sensor groups that are arranged in the ground, and described automation sensor group is used for gathering the formation consolidation parameter signal of precompressed process, and converts the signal that collects to electronic signal;
The field control center module, comprise some intelligent measurement and control units and field control center, described intelligent measurement and control unit connects with corresponding described automation sensor group, described intelligent measurement and control unit is connected by Internet of Things or wireless network with described field control center, described some intelligent measurement and control units are used for collecting from the electronic signal of described monitoring sensor module, and described field control center is used for the signal that described intelligent measurement and control unit is collected is carried out data analysis and/or graphics process to form diversified monitoring result; And
The remote control center module is connected by wireless network with described field control center module, is used for checking real-time monitoring result for user's Telnet.
2. the remote automation monitoring system processed of soft foundation precompressed according to claim 1, it is characterized in that, described remote control center module comprises that remote control center and user login and checks online module that described user logs in and checks online module and the communication connection of described remote control center.
3. the remote automation monitoring system processed of soft foundation precompressed according to claim 2, it is characterized in that described user logins and checks that online module comprises that the technician logins and checks online that module and/or engineering staff log in and check online that module and/or administrative staff log in and check online module.
4. the remote automation monitoring system processed of soft foundation precompressed according to claim 1, it is characterized in that described automation sensor group comprises for the automation sensor of monitoring ground settlement, is used for the automation sensor of monitoring soil mass displacement at the deep layer and the automation sensor that is used for monitoring the formation pore water pressure.
5. the remote automation monitoring method that the soft foundation precompressed is processed is characterized in that, comprising:
Step 1, each automation sensor group gathers the formation consolidation parameter in precompressed process, and is sent to intelligent measurement and control unit after converting the signal that collects to electronic signal;
After step 2, intelligent measurement and control unit are carried out collection and treatment to the electronic signal that receives, arrive the field control center by Internet of Things or wireless network transmissions;
Step 3, the field control center carries out forming diversified monitoring result after data analysis and/or the graphics process to the data that receive;
Step 4, the user carries out Real Time Monitoring by the remote control center module to the monitoring result at field control center.
6. the remote automation monitoring method processed of soft foundation precompressed according to claim 5, it is characterized in that, the remote automation monitoring system that adopts the soft foundation precompressed to process, the remote automation monitoring system that described soft foundation precompressed is processed comprises the monitoring sensor module, field control center module and remote control center module, described detecting sensor module comprises some automation sensor groups, described field control center module comprises some intelligent measurement and control units and field control center, described some automation sensor groups are connected respectively intelligent measurement and control unit and are connected with correspondence, described intelligent measurement and control unit is connected by Internet of Things or wireless communication with described field control center, and described field control center is connected with described remote control center module radio communication.
7. the remote automation monitoring method processed of soft foundation precompressed according to claim 6, it is characterized in that, described remote control center module comprises that remote control center and user login and checks online module that described user logs in and checks online module and the communication connection of described remote control center.
8. the remote automation monitoring method processed of soft foundation precompressed according to claim 7, it is characterized in that described user logins and checks that online module comprises that the technician logins and checks online that module and/or engineering staff log in and check online that module and/or administrative staff log in and check online module.
9. the remote automation monitoring method processed of soft foundation precompressed according to claim 6, it is characterized in that described automation sensor group comprises for the automation sensor of monitoring ground settlement, is used for the automation sensor of monitoring soil mass displacement at the deep layer and the automation sensor that is used for monitoring the formation pore water pressure.
10. the remote automation monitoring method of soft foundation precompressed processing according to claim 7 is characterized in that, by remote control center monitoring period and monitoring frequency is set.
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CN105064311A (en) * | 2015-08-06 | 2015-11-18 | 中国水利水电第六工程局有限公司 | Digital management and control system for foundation construction |
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CN106338254A (en) * | 2016-10-12 | 2017-01-18 | 上海建工集团股份有限公司 | Underground engineering construction rapid monitoring prediction system and method based on 3D laser scanning |
CN109696151A (en) * | 2019-01-23 | 2019-04-30 | 北京市燃气集团有限责任公司 | Geology sedimentation monitoring system and method |
CN109736366A (en) * | 2019-01-18 | 2019-05-10 | 中交第三航务工程局有限公司 | The automatic monitoring system and monitoring method of land-based area treatment of soft foundation |
CN111236206A (en) * | 2020-01-15 | 2020-06-05 | 田强 | Double-layer low-level vacuum preloading reinforcing device and soft soil foundation reinforcing method |
CN112030927A (en) * | 2020-08-19 | 2020-12-04 | 广州市城市建设工程监理公司 | Soft soil layer surcharge preloading monitoring system |
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CN106338254B (en) * | 2016-10-12 | 2019-04-02 | 上海建工集团股份有限公司 | The quick monitoring and forecasting systems of underground engineering construction and method based on 3D laser scanning |
CN109736366A (en) * | 2019-01-18 | 2019-05-10 | 中交第三航务工程局有限公司 | The automatic monitoring system and monitoring method of land-based area treatment of soft foundation |
CN109696151A (en) * | 2019-01-23 | 2019-04-30 | 北京市燃气集团有限责任公司 | Geology sedimentation monitoring system and method |
CN111236206A (en) * | 2020-01-15 | 2020-06-05 | 田强 | Double-layer low-level vacuum preloading reinforcing device and soft soil foundation reinforcing method |
CN112030927A (en) * | 2020-08-19 | 2020-12-04 | 广州市城市建设工程监理公司 | Soft soil layer surcharge preloading monitoring system |
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Application publication date: 20130220 |