CN110310210A - A kind of analysis of architectural engineering comprehensive data acquisition and long-distance Log server system - Google Patents
A kind of analysis of architectural engineering comprehensive data acquisition and long-distance Log server system Download PDFInfo
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- CN110310210A CN110310210A CN201910562025.3A CN201910562025A CN110310210A CN 110310210 A CN110310210 A CN 110310210A CN 201910562025 A CN201910562025 A CN 201910562025A CN 110310210 A CN110310210 A CN 110310210A
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- 230000002349 favourable effect Effects 0.000 claims description 4
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- 230000006399 behavior Effects 0.000 claims description 3
- 230000009977 dual effect Effects 0.000 claims description 3
- 230000007613 environmental effect Effects 0.000 claims description 3
- 238000009434 installation Methods 0.000 claims description 3
- 230000002452 interceptive effect Effects 0.000 claims description 3
- 238000012423 maintenance Methods 0.000 claims description 3
- 238000007781 pre-processing Methods 0.000 claims description 3
- 238000005096 rolling process Methods 0.000 claims description 3
- 230000005477 standard model Effects 0.000 claims description 3
- 230000001360 synchronised effect Effects 0.000 claims description 3
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- 238000007405 data analysis Methods 0.000 description 5
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q50/00—Systems or methods specially adapted for specific business sectors, e.g. utilities or tourism
- G06Q50/08—Construction
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q50/00—Systems or methods specially adapted for specific business sectors, e.g. utilities or tourism
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- G06Q50/26—Government or public services
- G06Q50/265—Personal security, identity or safety
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B21/00—Alarms responsive to a single specified undesired or abnormal condition and not otherwise provided for
- G08B21/02—Alarms for ensuring the safety of persons
- G08B21/10—Alarms for ensuring the safety of persons responsive to calamitous events, e.g. tornados or earthquakes
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/02—Protocols based on web technology, e.g. hypertext transfer protocol [HTTP]
- H04L67/025—Protocols based on web technology, e.g. hypertext transfer protocol [HTTP] for remote control or remote monitoring of applications
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/12—Protocols specially adapted for proprietary or special-purpose networking environments, e.g. medical networks, sensor networks, networks in vehicles or remote metering networks
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/50—Network services
- H04L67/52—Network services specially adapted for the location of the user terminal
Abstract
The invention discloses a kind of analysis of architectural engineering comprehensive data acquisition and long-distance Log server systems, including Cloud Server, project data acquisition system, building site data relay machine, terminal system, video monitoring system, face recognition door control system.The present invention is for collecting the original observed data from distinct device, and the data for decoding distinct device are integrated and are woven into a kind of information, the information is passed through into transport services device, by specific algorithm processing is compared in much information by server, the risk situation of its correctness and future is analyzed, arrangement feeds back to terminal user.
Description
Technical field
The present invention relates to the equipment of a kind of data collection and analysis and long-distance Log server, in particular to a kind of comprehensive number of architectural engineering
According to collection analysis and long-distance Log server system.
Technical background
With the continuous development of technology and social progress, people are more next to the safety of project under construction and building finished product
More pay attention to, therefore constructure construction procedure obtained by sensing equipment and builds up rear operational parameter, to the situation of architectural engineering into
Row assessment becomes a kind of development trend.General data collection and analysis and uploading system currently on the market are set for single
Standby data collection and analysis, and dangerous information and feedback user are obtained by simple algorithm, but really needed in engineering construction
A large amount of data are safety and close rule, therefore existing data collection and analysis system to prove some construction technology or build position
System is unable to satisfy increasingly developed practical application request.
Summary of the invention
The present invention is to solve the problems such as data acquisition equipment is single, and the analysis of Construction Safety data is complicated difficult, is proposed
Following technical scheme:
A kind of analysis of architectural engineering comprehensive data acquisition and long-distance Log server system characterized by comprising
Project data acquisition system: including but is not limited to deep basal pit monitoring modular, tower crane monitoring modular, elevator monitoring mould
Block, house monitoring modular, high-supported formwork monitoring modular, slope monitoring module, fugitive dust noise module, Geological Hazards Monitoring mould
Block;
Video monitoring system: include but is not limited to DVR, video decoding host, monitoring host computer, collector, receiver, record
90 degree of dual polarized antennas, the video monitoring display module of camera, 5.8G;
Face recognition door control system: channel management, attendance checking function, video interlink, report printing, real-time statistics are used for;Packet
Include but be not limited to data disaply moudle, report writer, card sender, video server, access control module, electric gate valve, liter
Descending mechanism, face recognition module and infrared sensor, safety cap are provided with wireless communication device, GPS on the safety cap
Locating module, miniature webcam and RFID locating module, the GPS positioning module, miniature webcam and RFID locating module point
It is not communicatively coupled with wireless communication device, the access control, report writer, data disaply moudle, card sender difference
It is communicated to connect by wireless communication base station and the building site data relay machine;
Building site data relay machine: include but is not limited to memory module, preprocessing module, decoder module, secondary coding module,
Information uploading module;
Cloud Server: it including memory, processor, alarm module and is stored on the memory and can be at the place
The construction project safety monitoring supervision cloud platform run on reason device;
Terminal system: for receiving the architectural engineering comprehensive data acquisition analysis result of the Cloud Server transmission and showing
Show;
Project data acquisition system, video monitoring system, face recognition door control system pass through respectively wireless communication base station with
The building site data relay machine communication connection, by the data collected, processing generates, device is sent to building site number by wireless communication
According to transfer machine, building site data relay machine is decoded and recompiles to data after data are stored and pre-processed, and is weighed
Device uploads in Cloud Server data after newly encoded by wireless communication, and building site data relay machine passes through wireless communication base station
It is communicated to connect with Cloud Server, Cloud Server classifies the data received, and according to typing preparatory in Cloud Server
Architectural engineering industry rule, associated data classification is matched, the data after matching separately constitute new data group, right
Architectural engineering industry security standards are modeled, and obtained each data group is matched with safety standard model, and matching is lost
It loses, starts the alarm module of Cloud Server, matching result is uploaded to construction project safety monitoring supervision cloud and put down by Cloud Server
Platform, and displayed data in terminal system;
The deep basal pit monitoring modular: for the sensing system that installation data acquires on foundation pit, sensing system will
After different sample frequencys, different types of monitoring data measurement processing, concentrated collection and pre- is carried out in the data relay machine of building site
Processing, is then transferred to terminal system for result universal remote;
The tower crane monitoring modular: it in the Life cycle until completing to remove from foundation design of tower crane to tower crane, carries out
The spare management of safety of tower crane, the establishment of column foot design and construction scheme, the monitoring of tower crane operation process and record, by different sampling frequencies
After rate, the measurement of different types of monitoring data, concentrated collection and pretreatment are carried out in the data relay machine of building site, then by result
Universal remote is transferred to terminal system;
The elevator monitoring modular: for monitoring each ginseng of the operation conditions during elevator descending operation in real time
It counts and passes through GPRS and be sent to terminal system and checked and monitored, operated normally so that it is guaranteed that elevator stablizes safety;
The house monitoring modular: by structure control monitoring and internet of things structure system, cloud computing, local area network/communication network
It is combined etc. technologies such as more net connection technologies, the parallel function processing of magnanimity node data, establishes complete structural safety monitoring
System is practiced for different type building structure by system comprehensive building structure safety monitoring system, carries out to house current state
Assessment, works out suitable maintenance strategy, after different sample frequencys, the measurement of different types of monitoring data, in the data of building site
Concentrated collection and pretreatment are carried out in favourable turn, and result universal remote is then transferred to terminal system, improves the fortune of building structure
Battalion's state, it is ensured that the safety of building structure and durability extend the length of service of building structure;
The high-supported formwork monitoring modular: it for being monitored to parameters such as sedimentation, in-plane displancement deformations, is measured by monitoring
The science and reasonability for understanding construction method and construction means adjust construction method in time, guarantee construction safety, monitoring construction
The vertical dislocation of branch loft different location and water level conditions in the process, the property of uninterrupted monitoring of structures key position in work progress
Energy parameter, deagnostic structure accept state and performance, after different sample frequencys, the measurement of different types of monitoring data, in work
Concentrated collection and pretreatment are carried out in ground data relay machine, and result universal remote is then transferred to terminal system and guarantees structure peace
Full smooth construction.
The slope monitoring module: slope data acquisition unit is attached to the prestressing force inside the geotechnical engineering in slopes
On anchor cable, for reacting the stress of corresponding displacement and prestress anchorage cable different parts inside side slope, inside side slope
Real-time monitoring and data real-time, interactive are carried out, after different sample frequencys, the measurement of different types of monitoring data, in building site data
Concentrated collection and pretreatment are carried out in transfer machine, result universal remote, which is then transferred to terminal system, ensure that slope monitoring number
According to accuracy;
The fugitive dust noise module: it can real-time and accurately be acquired by noise measurement and control unit, dust measurement and control unit
Then data are transferred to user inspection center by wireless transmission by environmental data, noise, dust data can pass through computer
After the processing such as storage, statistics, it is sent in the data relay machine of building site and is concentrated accurately and in time in the form of figure and report
Acquisition and pretreatment, are then transferred to terminal system for result universal remote, in addition, system also has Realtime Alerts, looks into real time
See the functions such as tendency chart, it is easy to use.
The geological disaster monitoring module: Geological Hazards Monitoring and Internet of Things, big data, cloud computing, local area network/communication
The advanced technologies such as net, more net seamless link technologys combine, and establish complete geological security monitoring system.It realizes to all kinds of geology
Disaster early-warning information is collected, issues, sharing and intercommunication, can effectively enhance the Disaster Defense Capability of society, be greatly lowered ground
The influence that matter disaster generates.
Preferably, deep basal pit monitoring modular further includes sensor unit A, rights management unit, design cell, construction list
Member, monitoring center A, construction cell, central control unit A, alarm unit A, check and correction unit, report writer;
Sensor unit A includes the bracket being fixed on foundation pit side-wall, and horizontal displacement sensors and again are provided on bracket
Force snesor, pressure sensor and inclination sensor;
Sensor unit A is connect by data line with the central control unit A, and the deep basal pit data being collected into are sent out
Central control unit A is given, data are saved with database form and carry out self diagnosis by central control unit A generates report,
It identifies the fault messages such as sensor failure signal, abnormal signal in report, fault message is automatically uploaded to monitoring center, and
Activate alarm unit A;Rights management unit is to each user in design cell, construction unit, monitoring center A, construction cell
The management for carrying out password and operating right distributes different system access, operating right rank to different users, ensures operation
The safety of system;When system temporarily powers off, check and correction unit the various pieces of system are restarted automatically, synchronous calibration, and
Retain breakpoint information;Report writer provides real time print, timed print, random printing function, supports to figure, report, song
The printing of the various statistical results such as line, warning message.
Preferably, tower crane monitoring modular further include: sensor unit B, monitoring unit, storage unit, display unit, center
Control unit B, alarm unit B, monitoring center B;
Sensor unit B: the video acquisition mould of tower arm rear end is arranged in the air velocity transducer including pylon upper end is arranged in
The infrared sensor and height sensor of tower arm front end is arranged in block, and weight sensor is provided on tower crane pull rod, described
Air velocity transducer, radio receiving transmitting module, infrared sensor, height sensor, weight sensor and video acquisition module difference
It is electrically connected with the central control unit B,;
Sensor unit B is connect by data line with the central control unit B, and the data being collected into are sent to
It entreats control unit B, central control unit B to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center B for fault message, and activate
Alarm unit B;
Crane-men's house is provided with monitoring unit, and the video recording and recording by camera to drivers' cab record driver's
All operation behaviors and the order received, while operating room also sets up display unit, weight, volume weight when real-time display operates and
On rear balance arm the case where rolling wheel;
Beginning and ending time, loading capacity, angle of revolution, amplitude, height and the meter of the every subjob of unit records crane
The torque calculated stores video and audio recording data.
Preferably, elevator monitoring modular further include: sensor unit C, central control unit C, alarm unit C, monitoring
Center C;
Sensor unit C: the acceleration including elevator front end is arranged in acquires sensor, elevation carrection sensor, claims
Retransmit sensor, wind speed measuring sensor and temperature sensor, the acceleration acquisition sensor, elevation carrection sensor, weighing
Quantity sensor, wind speed measuring sensor and temperature sensor are connect with the central control unit C electric appliance respectively;
Sensor unit C is connect by data line with the central control unit C, and the data being collected into are sent to
It entreats control unit C, central control unit C to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center C for fault message, and activate
Alarm unit C.
Preferably, house monitoring modular further includes sensor unit D, central control unit D, monitoring center D, alarm unit
D;
Sensor unit D: including the multiple sensors being arranged on house wall, including but not limited to wind transducer,
Inclination sensor, optical detecting sensor, vibrating sensor, settlement sensor, displacement sensor, precipitation rain fall sensor, humidity pass
Sensor and optical sensor, the wind transducer, inclination sensor, optical detecting sensor, vibrating sensor, sedimentation sensing
Device, displacement sensor, precipitation rain fall sensor, humidity sensor and optical sensor are connect with central control unit D respectively;
Sensor unit D is connect by data line with the central control unit D, and the data being collected into are sent to
It entreats control unit D, central control unit D to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center D for fault message, and activate
Alarm unit D;
Preferably, high-supported formwork monitoring modular further includes sensor unit E, central control unit E, monitoring center E, alarm list
First E;
Sensor unit E: including the pressure sensor of high-supported formwork top support plate lower part is arranged in, is arranged in high-supported formwork steel
It manages the angular transducer with top support plate junction and the displacement sensor of high-supported formwork steel pipe bottom is set, the pressure passes
Sensor, angular transducer and displacement sensor pass through data line respectively and connect with central control unit E;
Sensor unit E is connect by data line with the central control unit E, and the data being collected into are sent to
It entreats control unit E, central control unit E to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center E for fault message, and activate
Alarm unit E.
Preferably, slope monitoring further include: sensor unit F, central control unit F, monitoring center F, alarm unit F;
Sensor unit F: being embedded in the prestress anchorage cable of several intracorporal reinforcings of side slope, from side slope body highest point to
Lowest part is successively past to be arranged with monitoring control unit, GPS positioning module, inclinometer, precipitation rain fall sensor, contains water sensor, seeps
Pressure meter, reinforcing rib meter and strain transducer are fixedly installed outer anchor head in the upper end of prestress anchorage cable, monitoring control unit and
The outer anchor head of GPS positioning module is fixed on side slope body highest point, GPS positioning module, inclinometer, precipitation rain fall sensor, containing water sensor,
Osmometer, reinforcing rib meter and strain transducer are respectively attached on the test point of prestress anchorage cable and are controlled by data line and center
Unit F connection.
Sensor unit F is connect by data line with the central control unit F, and the data being collected into are sent to
It entreats control unit F, central control unit F to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center F for fault message, and activate
Alarm unit F.
Preferably, fugitive dust noise module further includes sensor unit G, central control unit G, monitoring center G, alarm
Unit G.
Sensor unit G: including the noise biography that the air velocity transducer on tower crane top is arranged in, tower crane tower arm rear end is arranged in
Sensor, the video collector that tower crane tower arm rear end is arranged in are arranged in multiple fugitive dusts of lower end and the front end of tower arm in tower crane and pass
Sensor cell, the air velocity transducer, sensor noise, video collector, fugitive dust sensor are controlled by data line and center
Unit G connection.
Sensor unit G is connect by data line with the central control unit G, and the data being collected into are sent to
It entreats control unit G, central control unit G to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center G for fault message, and activate
Alarm unit G.
Preferably, Geological Hazards Monitoring module further includes sensor unit H, central control unit H, monitoring center H, alarm
Unit H.
Sensor unit H passes through the geological disaster data that data line connect with the central control unit H, and will be collected into
It is sent to central control unit H, data are saved with database form and carry out self diagnosis by central control unit H generates report
Table identifies the fault messages such as sensor failure signal, abnormal signal in report, automatically fault message is uploaded in monitoring
The heart, and activate alarm unit H.
Preferably, the terminal system includes but is not limited to mobile device and vertical terminal.
In conclusion due to present invention employs above-mentioned technical proposal, the present invention is had following technical effect that
(1) data collection system currently on the market is mostly the data collection and analysis for single equipment, and by simple
Algorithm obtain dangerous information and feedback user.But a large amount of data are needed in engineering construction really to prove some construction technology
Or construction position is safety and closes rule.The invention decodes difference for collecting the original observed data from distinct device
The data of equipment, which are integrated, is woven into a kind of information, and by the information by transport services device, server passes through specific
Processing is compared in much information by algorithm, analyzes the risk situation of its correctness and future, and arrangement feeds back to terminal use
Family, thus solve above-mentioned pain spot,
(2) technical solution of the present invention constructs intelligent management by being mounted on all kinds of intelligent apparatus at construction operation scene
System makes up conventional method and technology in managerial insufficient and defect, realize to people, machine, material, ring comprehensive real-time prison
Control, and all data can be locally stored, and as retrospect foundation, become passive supervision and monitor into active.Be simultaneously safety in production,
Efficiently management introduce new concept, really embody " safety first, put prevention first, prevent and treat combine " work safety policies.By more
Equipment detection data, and the multiparty data by detecting is analysed scientifically, is obtained safe information and is fed back to user;It sees
The initial data from distinct device is surveyed and collected, multi-party device data is decoded, generates useful authentic communication;Detection data simultaneously
It can be locally stored, inquiry is facilitated to recall.
Detailed description of the invention
Fig. 1 is building site data relay machine interface principle figure of the present invention.
Fig. 2 is data relay machine schematic diagram in building site of the present invention.
Fig. 3 is data relay machine schematic diagram in building site of the present invention.
Fig. 4 is data relay machine schematic diagram in building site of the present invention.
Fig. 5 is data relay machine schematic diagram in building site of the present invention.
Fig. 6 is data relay machine schematic diagram in building site of the present invention.
Fig. 7 is data relay machine schematic diagram in building site of the present invention.
Fig. 8 is data relay machine schematic diagram in building site of the present invention.
Fig. 9 is flow diagram of the present invention.
Figure 10 is schematic structural view of the invention.
Figure 11 is that fugitive dust of embodiment of the present invention noise module shows situation map.
Specific embodiment
A kind of analysis of architectural engineering comprehensive data acquisition and long-distance Log server system as shown in figs. 9-10:
Project data acquisition system: including deep basal pit monitoring modular, tower crane monitoring modular, elevator monitoring modular, house
Monitoring modular, high-supported formwork monitoring modular, slope monitoring module, fugitive dust noise module, Geological Hazards Monitoring module;
Video monitoring system includes HD-SDI-DVR, TP-LINKH.265 high-definition network video decoder, monitoring host computer, adopts
Storage, receiver, video recorder, 5.8G 90 degree of dual polarized antennas, video monitoring display module;
Face recognition door control system: channel management, attendance checking function, video interlink, report printing, real-time statistics are used for;Packet
Include data disaply moudle, report writer, card sender, video server, access control module, electric gate valve, elevating mechanism, people
Face identification module and infrared sensor, safety cap, be provided on the safety cap wireless communication device, GPS positioning module,
Miniature webcam and RFID locating module, the GPS positioning module, miniature webcam and RFID locating module respectively with channel radio
T unit is communicatively coupled, and the access control, report writer, data disaply moudle, card sender pass through channel radio respectively
It interrogates base station and the building site data relay machine communicates to connect;
As shown in figures 1-8, building site data relay machine: include but is not limited to memory module, preprocessing module, decoder module,
Secondary coding module, information uploading module;
Cloud Server: it including memory, processor, alarm module and is stored on the memory and can be at the place
The construction project safety monitoring supervision cloud platform run on reason device;
Terminal system: for receiving the architectural engineering comprehensive data acquisition analysis result of the Cloud Server transmission and showing
Show;
Project data acquisition system, video monitoring system, face recognition door control system pass through respectively wireless communication base station with
The building site data relay machine communication connection, by the data collected, processing generates, device is sent to building site number by wireless communication
According to transfer machine, building site data relay machine is decoded and recompiles to data after data are stored and pre-processed, and is weighed
Device uploads in Cloud Server data after newly encoded by wireless communication, and building site data relay machine passes through wireless communication base station
It is communicated to connect with Cloud Server, Cloud Server classifies the data received, and according to typing preparatory in Cloud Server
Architectural engineering industry rule, associated data classification is matched, the data after matching separately constitute new data group, right
Architectural engineering industry security standards are modeled, and obtained each data group is matched with safety standard model, and matching is lost
It loses, starts the alarm module of Cloud Server, matching result is uploaded to construction project safety monitoring supervision cloud and put down by Cloud Server
Platform, and displayed data in terminal system;
The deep basal pit monitoring modular: for the sensing system that installation data acquires on foundation pit, sensing system will
After different sample frequencys, different types of monitoring data measurement processing, concentrated collection and pre- is carried out in the data relay machine of building site
Processing, is then transferred to terminal system for result universal remote;
Deep basal pit monitoring modular further include sensor unit A, rights management unit, design cell, construction unit, in monitoring
Heart A, construction cell, central control unit A, alarm unit A, check and correction unit, report writer;
Sensor unit A includes the bracket being fixed on foundation pit side-wall, and horizontal displacement sensors and again are provided on bracket
Force snesor, pressure sensor and inclination sensor;
Sensor unit A is connect by data line with the central control unit A, and the deep basal pit data being collected into are sent out
Central control unit A is given, data are saved with database form and carry out self diagnosis by central control unit A generates report,
It identifies the fault messages such as sensor failure signal, abnormal signal in report, fault message is automatically uploaded to monitoring center, and
Activate alarm unit A;Rights management unit is to each user in design cell, construction unit, monitoring center A, construction cell
The management for carrying out password and operating right distributes different system access, operating right rank to different users, ensures operation
The safety of system;When system temporarily powers off, check and correction unit the various pieces of system are restarted automatically, synchronous calibration, and
Retain breakpoint information;Report writer provides real time print, timed print, random printing function, supports to figure, report, song
The printing of the various statistical results such as line, warning message.
The tower crane monitoring modular: it in the Life cycle until completing to remove from foundation design of tower crane to tower crane, carries out
The spare management of safety of tower crane, the establishment of column foot design and construction scheme, the monitoring of tower crane operation process and record, by different sampling frequencies
After rate, the measurement of different types of monitoring data, concentrated collection and pretreatment are carried out in the data relay machine of building site, then by result
Universal remote is transferred to terminal system;
Tower crane monitoring modular further include: sensor unit B, monitoring unit, storage unit, display unit, center control are single
First B, alarm unit B, monitoring center B;
Sensor unit B: the video acquisition mould of tower arm rear end is arranged in the air velocity transducer including pylon upper end is arranged in
The infrared sensor and height sensor of tower arm front end is arranged in block, and weight sensor is provided on tower crane pull rod, described
Air velocity transducer, radio receiving transmitting module, infrared sensor, height sensor, weight sensor and video acquisition module difference
It is electrically connected with the central control unit B,;
Sensor unit B is connect by data line with the central control unit B, and the data being collected into are sent to
It entreats control unit B, central control unit B to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center B for fault message, and activate
Alarm unit B;
Crane-men's house is provided with monitoring unit, and the video recording and recording by camera to drivers' cab record driver's
All operation behaviors and the order received, while operating room also sets up display unit, weight, volume weight when real-time display operates and
On rear balance arm the case where rolling wheel;
Beginning and ending time, loading capacity, angle of revolution, amplitude, height and the meter of the every subjob of unit records crane
The torque calculated stores video and audio recording data.
The elevator monitoring modular: for monitoring each ginseng of the operation conditions during elevator descending operation in real time
It counts and passes through GPRS and be sent to terminal system and checked and monitored, operated normally so that it is guaranteed that elevator stablizes safety;
Excellent elevator monitoring modular further include: sensor unit C, central control unit C, alarm unit C, monitoring center C;
Sensor unit C: the acceleration including elevator front end is arranged in acquires sensor, elevation carrection sensor, claims
Retransmit sensor, wind speed measuring sensor and temperature sensor, the acceleration acquisition sensor, elevation carrection sensor, weighing
Quantity sensor, wind speed measuring sensor and temperature sensor are connect with the central control unit C electric appliance respectively;
Sensor unit C is connect by data line with the central control unit C, and the data being collected into are sent to
It entreats control unit C, central control unit C to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center C for fault message, and activate
Alarm unit C.
The house monitoring modular: by structure control monitoring and internet of things structure system, cloud computing, local area network/communication network
It is combined etc. technologies such as more net connection technologies, the parallel function processing of magnanimity node data, establishes complete structural safety monitoring
System is practiced for different type building structure by system comprehensive building structure safety monitoring system, carries out to house current state
Assessment, works out suitable maintenance strategy, after different sample frequencys, the measurement of different types of monitoring data, in the data of building site
Concentrated collection and pretreatment are carried out in favourable turn, and result universal remote is then transferred to terminal system, improves the fortune of building structure
Battalion's state, it is ensured that the safety of building structure and durability extend the length of service of building structure;
House monitoring modular further includes sensor unit D, central control unit D, monitoring center D, alarm unit D;
Sensor unit D: 1 wind transducer, 2 inclination sensors, 2 light are set including being arranged on house wall
Learn detection sensor, 1 vibrating sensor, 3 settlement sensors, 2 displacement sensors, 2 precipitation rain fall sensors, 3 humidity
Sensor and 5 optical sensors, the wind transducer, optical detecting sensor, vibrating sensor, sink at inclination sensor
Drop sensor, displacement sensor, precipitation rain fall sensor, humidity sensor and optical sensor are connect with central control unit D respectively;
Sensor unit D is connect by data line with the central control unit D, and the data being collected into are sent to
It entreats control unit D, central control unit D to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center D for fault message, and activate
Alarm unit D;
The high-supported formwork monitoring modular: it for being monitored to parameters such as sedimentation, in-plane displancement deformations, is measured by monitoring
The science and reasonability for understanding construction method and construction means adjust construction method in time, guarantee construction safety, monitoring construction
The vertical dislocation of branch loft different location and water level conditions in the process, the property of uninterrupted monitoring of structures key position in work progress
Energy parameter, deagnostic structure accept state and performance, after different sample frequencys, the measurement of different types of monitoring data, in work
Concentrated collection and pretreatment are carried out in ground data relay machine, and result universal remote is then transferred to terminal system and guarantees structure peace
Full smooth construction.
High-supported formwork monitoring modular further includes sensor unit E, central control unit E, monitoring center E, alarm unit E;
Sensor unit E: including the pressure sensor of high-supported formwork top support plate lower part is arranged in, is arranged in high-supported formwork steel
It manages the angular transducer with top support plate junction and the displacement sensor of high-supported formwork steel pipe bottom is set, the pressure passes
Sensor, angular transducer and displacement sensor pass through data line respectively and connect with central control unit E;
Sensor unit E is connect by data line with the central control unit E, and the data being collected into are sent to
It entreats control unit E, central control unit E to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center E for fault message, and activate
Alarm unit E.
The slope monitoring module: slope data acquisition unit is attached to the prestressing force inside the geotechnical engineering in slopes
On anchor cable, for reacting the stress of corresponding displacement and prestress anchorage cable different parts inside side slope, inside side slope
Real-time monitoring and data real-time, interactive are carried out, after different sample frequencys, the measurement of different types of monitoring data, in building site data
Concentrated collection and pretreatment are carried out in transfer machine, result universal remote, which is then transferred to terminal system, ensure that slope monitoring number
According to accuracy;
Slope monitoring further include: sensor unit F, central control unit F, monitoring center F, alarm unit F;
Sensor unit F: being embedded in the prestress anchorage cable of several intracorporal reinforcings of side slope, from side slope body highest point to
Lowest part is successively past to be arranged with monitoring control unit, GPS positioning module, inclinometer, precipitation rain fall sensor, contains water sensor, seeps
Pressure meter, reinforcing rib meter and strain transducer are fixedly installed outer anchor head in the upper end of prestress anchorage cable, monitoring control unit and
The outer anchor head of GPS positioning module is fixed on side slope body highest point, GPS positioning module, inclinometer, precipitation rain fall sensor, containing water sensor,
Osmometer, reinforcing rib meter and strain transducer are respectively attached on the test point of prestress anchorage cable and are controlled by data line and center
Unit F connection.
Sensor unit F is connect by data line with the central control unit F, and the data being collected into are sent to
It entreats control unit F, central control unit F to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center F for fault message, and activate
Alarm unit F.
The fugitive dust noise module: it can real-time and accurately be acquired by noise measurement and control unit, dust measurement and control unit
Then data are transferred to user inspection center by wireless transmission by environmental data, noise, dust data can pass through computer
After the processing such as storage, statistics, it is sent in the data relay machine of building site and is concentrated accurately and in time in the form of figure and report
Acquisition and pretreatment, are then transferred to terminal system for result universal remote, in addition, system also has Realtime Alerts, looks into real time
See the functions such as tendency chart, it is easy to use.
Fugitive dust noise module further include sensor unit G, central control unit G, monitoring center G, alarm unit G,
Display unit.
Sensor unit G: including the noise biography that the air velocity transducer on tower crane top is arranged in, tower crane tower arm rear end is arranged in
Sensor, the video collector that tower crane tower arm rear end is arranged in are arranged in multiple fugitive dusts of lower end and the front end of tower arm in tower crane and pass
Sensor cell, the air velocity transducer, sensor noise, video collector, fugitive dust sensor are controlled by data line and center
Unit G connection.
Sensor unit G is connect by data line with the central control unit G, and the data being collected into are sent to
It entreats control unit G, central control unit G to save data with database form and carries out self diagnosis and generate report, identification report
The fault messages such as sensor failure signal, abnormal signal in table, are automatically uploaded to monitoring center G for fault message, and activate
Alarm unit G, the data that display unit real-time display sensor unit uploads, as shown in figure 11.
The geological disaster monitoring module: Geological Hazards Monitoring and Internet of Things, big data, cloud computing, local area network/communication
The advanced technologies such as net, more net seamless link technologys combine, and establish complete geological security monitoring system.It realizes to all kinds of geology
Disaster early-warning information is collected, issues, sharing and intercommunication, can effectively enhance the Disaster Defense Capability of society, be greatly lowered ground
The influence that matter disaster generates.
Geological Hazards Monitoring module further includes sensor unit H, central control unit H, monitoring center H, alarm unit H.
Sensor unit H passes through the geological disaster data that data line connect with the central control unit H, and will be collected into
It is sent to central control unit H, data are saved with database form and carry out self diagnosis by central control unit H generates report
Table identifies the fault messages such as sensor failure signal, abnormal signal in report, automatically fault message is uploaded in monitoring
The heart, and activate alarm unit H.
Terminal system uses vertical terminal.
The above embodiments are only used to illustrate the present invention, and not limitation of the present invention, in relation to the common of technical field
Technical staff can also make a variety of changes and modification without departing from the spirit and scope of the present invention, therefore all
Equivalent technical solution also belongs to scope of the invention, and scope of patent protection of the invention should be defined by the claims.
Claims (10)
1. a kind of architectural engineering comprehensive data acquisition analysis and long-distance Log server system characterized by comprising
Project data acquisition system: include but is not limited to deep basal pit monitoring modular, tower crane monitoring modular, elevator monitoring modular,
House monitoring modular, high-supported formwork monitoring modular, slope monitoring module, fugitive dust noise module, Geological Hazards Monitoring module;
Video monitoring system: include but is not limited to DVR, video decoding host, monitoring host computer, collector, receiver, video recorder,
90 degree of dual polarized antennas, the video monitoring display module of 5.8G;
Face recognition door control system: channel management, attendance checking function, video interlink, report printing, real-time statistics are used for;Including but
It is not limited to data disaply moudle, report writer, card sender, video server, access control module, electric gate valve, elevator
Structure, face recognition module and infrared sensor, the access control module, report writer, data disaply moudle, card sender
It is communicated to connect respectively by wireless communication base station and the building site data relay machine;
Building site data relay machine: including but is not limited to memory module, preprocessing module, decoder module, secondary coding module, information
Uploading module;
Cloud Server: it including memory, processor, alarm module and is stored on the memory and can be in the processor
Cloud platform is supervised in the construction project safety monitoring of upper operation;
Terminal system: it for receiving the architectural engineering comprehensive data acquisition analysis result of the Cloud Server transmission and showing, wraps
Include but be not limited to mobile device and vertical terminal;
Project data acquisition system, video monitoring system, face recognition door control system pass through respectively wireless communication base station with it is described
The communication connection of building site data relay machine, by the data collected, processing generates, device is sent in the data of building site by wireless communication
Favourable turn, building site data relay machine are decoded and recompile to data after data are stored and pre-processed, compiled again
Device uploads in Cloud Server data after code by wireless communication, and building site data relay machine passes through wireless communication base station and cloud
Server communication connection, Cloud Server classify the data received, and according to the building of typing preparatory in Cloud Server
Construction industry rule, associated data classification is matched, the data after matching separately constitute new data group, to building
Construction industry safety standard is modeled, and obtained each data group is matched with safety standard model, it fails to match then
Starting the alarm module of Cloud Server, matching result is uploaded to construction project safety monitoring supervision cloud platform by Cloud Server, and
It is displayed data in terminal system.
2. a kind of architectural engineering comprehensive data acquisition analysis according to claim 1 and long-distance Log server system, feature exist
In the deep basal pit monitoring modular: for the sensing system that installation data acquires on foundation pit, sensing system adopts difference
After sample frequency, different types of monitoring data measurement processing, concentrated collection and pretreatment are carried out in the data relay machine of building site, so
Result universal remote is transferred to terminal system afterwards;
Deep basal pit monitoring modular further include sensor unit A, rights management unit, design cell, construction unit, monitoring center A,
Construction cell, central control unit A, alarm unit A, check and correction unit, report writer;
Sensor unit A includes the bracket being fixed on foundation pit side-wall, and horizontal displacement sensors are provided on bracket and gravity passes
Sensor, pressure sensor and inclination sensor;
Sensor unit A is connect by data line with the central control unit A, and the deep basal pit data being collected into are sent to
Data are saved with database form and carry out self diagnosis by central control unit A, central control unit A generates report, identification
The fault messages such as sensor failure signal, abnormal signal in report, are automatically uploaded to monitoring center for fault message, and activate
Alarm unit A;Rights management unit carries out each user in design cell, construction unit, monitoring center A, construction cell
The management of password and operating right distributes different system access, operating right rank to different users, ensures operating system
Safety;When system temporarily powers off, check and correction unit automatically restarts the various pieces of system, synchronous calibration, and retains
Breakpoint information;Report writer provides real time print, timed print, random printing function, supports to figure, report, curve, report
The printing of the various statistical results such as alert information.
3. a kind of architectural engineering comprehensive data acquisition analysis according to claim 1 and long-distance Log server system, feature exist
In the tower crane monitoring modular: in the Life cycle until completing to remove from foundation design of tower crane to tower crane, carrying out tower crane peace
Complete spare management, the establishment of column foot design and construction scheme, the monitoring of tower crane operation process and record, by different sample frequencys, difference
After the monitoring data measurement of type, concentrated collection and pretreatment are carried out in the data relay machine of building site, it is then that result is unified remote
Journey is transferred to terminal system;
Tower crane monitoring modular further include: sensor unit B, monitoring unit, storage unit, display unit, central control unit B,
Alarm unit B, monitoring center B;
Sensor unit B: the video acquisition module of tower arm rear end is arranged in the air velocity transducer including pylon upper end is arranged in,
The infrared sensor and height sensor of tower arm front end are set, weight sensor, the wind are provided on tower crane pull rod
Fast sensor, radio receiving transmitting module, infrared sensor, height sensor, weight sensor and video acquisition module respectively with
The central control unit B electrical connection;
Sensor unit B is connect by data line with the central control unit B, and the data being collected into are sent to central control
Unit B processed, data are saved with database form and carry out self diagnosis by central control unit B generates report, identifies in report
Fault message is automatically uploaded to monitoring center B by the fault messages such as sensor failure signal, abnormal signal, and activates alarm
Unit B;
Crane-men's house is provided with monitoring unit, the video recording and recording by camera to drivers' cab, records all of driver
Operation behavior and the order received, while operating room also sets up display unit, weight, volume weight and rear when real-time display operates
On counter-jib the case where rolling wheel;
It beginning and ending time of the every subjob of unit records crane, loading capacity, angle of revolution, amplitude, height and calculates
The torque come stores video and audio recording data.
4. a kind of architectural engineering comprehensive data acquisition analysis according to claim 1 and long-distance Log server system, feature exist
In the elevator monitoring modular: for monitoring the parameters of the operation conditions during elevator descending operation in real time simultaneously
Terminal system is sent to by GPRS to be checked and monitored, and is operated normally so that it is guaranteed that elevator stablizes safety;
Elevator monitoring modular further include: sensor unit C, central control unit C, alarm unit C, monitoring center C;
Sensor unit C: the acceleration including elevator front end is arranged in acquires sensor, elevation carrection sensor, weighing biography
Sensor, wind speed measuring sensor and temperature sensor, acceleration acquisition sensor, the elevation carrection sensor, weigh biography
Sensor, wind speed measuring sensor and temperature sensor are connect with the central control unit C electric appliance respectively;
Sensor unit C is connect by data line with the central control unit C, and the data being collected into are sent to central control
Data are saved with database form and carry out self diagnosis by unit C processed, central control unit C generates report, identifies in report
Fault message is automatically uploaded to monitoring center C by the fault messages such as sensor failure signal, abnormal signal, and activates alarm
Unit C.
5. a kind of architectural engineering comprehensive data acquisition analysis according to claim 1 and long-distance Log server system, feature exist
In the house monitoring modular: by more nets such as structure control monitoring and internet of things structure system, cloud computing, local area network/communication network
The technologies such as the parallel function processing of connection technology, magnanimity node data combine, and establish complete structural safety monitoring system, needle
To different type building structure, practiced by system comprehensive building structure safety monitoring system, house current state is assessed, made
Order suitable maintenance strategy, by different sample frequencys, different types of monitoring data measurement after, in the data relay machine of building site into
Then result universal remote is transferred to terminal system by row concentrated collection and pretreatment;
House monitoring modular further includes sensor unit D, central control unit D, monitoring center D, alarm unit D;
Sensor unit D: including the multiple sensors being arranged on house wall, including but not limited to wind transducer, inclination
Sensor, optical detecting sensor, vibrating sensor, settlement sensor, displacement sensor, precipitation rain fall sensor, humidity sensor
And optical sensor, the wind transducer, inclination sensor, optical detecting sensor, vibrating sensor, settlement sensor,
Displacement sensor, precipitation rain fall sensor, humidity sensor and optical sensor are connect with central control unit D respectively;
Sensor unit D is connect by data line with the central control unit D, and the data being collected into are sent to central control
Cells D processed, data are saved with database form and carry out self diagnosis by central control unit D generates report, identifies in report
Fault message is automatically uploaded to monitoring center D by the fault messages such as sensor failure signal, abnormal signal, and activates alarm
Cells D.
6. a kind of architectural engineering comprehensive data acquisition analysis according to claim 1 and long-distance Log server system, feature exist
In the high-supported formwork monitoring modular: for being monitored to parameters such as sedimentation, in-plane displancement deformations, monitoring and propped up in work progress
The vertical dislocation of loft different location and water level conditions, the performance parameter of uninterrupted monitoring of structures key position in work progress,
Deagnostic structure accepts state and performance, after different sample frequencys, the measurement of different types of monitoring data, in the data of building site
Concentrated collection and pretreatment are carried out in favourable turn, and result universal remote is then transferred to terminal system;
High-supported formwork monitoring modular further includes sensor unit E, central control unit E, monitoring center E, alarm unit E;
Sensor unit E: including be arranged in high-supported formwork top support plate lower part pressure sensor, setting high-supported formwork steel pipe with
The angular transducer of top support plate junction and the displacement sensor that high-supported formwork steel pipe bottom is set, the pressure sensing
Device, angular transducer and displacement sensor pass through data line respectively and connect with central control unit E;
Sensor unit E is connect by data line with the central control unit E, and the data being collected into are sent to central control
Data are saved with database form and carry out self diagnosis by unit E processed, central control unit E generates report, identifies in report
Fault message is automatically uploaded to monitoring center E by the fault messages such as sensor failure signal, abnormal signal, and activates alarm
Unit E.
7. a kind of architectural engineering comprehensive data acquisition analysis according to claim 1 and long-distance Log server system, feature exist
In the slope monitoring module: for reacting the stress shape of corresponding displacement and prestress anchorage cable different parts inside side slope
State, side slope inside carry out real-time monitoring and data real-time, interactive, and different sample frequencys, different types of monitoring data are measured
Afterwards, concentrated collection and pretreatment are carried out in the data relay machine of building site, and result universal remote is then transferred to terminal system;
Slope monitoring further include: sensor unit F, central control unit F, monitoring center F, alarm unit F;
Sensor unit F: being embedded in the prestress anchorage cable of several intracorporal reinforcings of side slope, from side slope body highest point to minimum
Place successively toward be arranged with monitoring control unit, GPS positioning module, inclinometer, precipitation rain fall sensor, containing water sensor, osmometer,
Reinforcing rib meter and strain transducer are fixedly installed outer anchor head in the upper end of prestress anchorage cable, monitor control unit and GPS positioning
The outer anchor head of module is fixed on side slope body highest point, GPS positioning module, inclinometer, precipitation rain fall sensor, containing water sensor, osmometer,
Reinforcing rib meter and strain transducer are respectively attached on the test point of prestress anchorage cable and are connected by data line and central control unit F
It connects;
Sensor unit F is connect by data line with the central control unit F, and the data being collected into are sent to central control
Unit F processed, data are saved with database form and carry out self diagnosis by central control unit F generates report, identifies in report
Fault message is automatically uploaded to monitoring center F by the fault messages such as sensor failure signal, abnormal signal, and activates alarm
Unit F.
8. a kind of architectural engineering comprehensive data acquisition analysis according to claim 1 and long-distance Log server system, feature exist
In fugitive dust noise module further includes sensor unit G, central control unit G, monitoring center G, alarm unit G;
Sensor unit G: including the noise sensing that the air velocity transducer on tower crane top is arranged in, tower crane tower arm rear end is arranged in
Device, the video collector that tower crane tower arm rear end is arranged in are arranged in multiple fugitive dusts of lower end and the front end of tower arm in tower crane and sense
Device unit, the air velocity transducer, sensor noise, video collector, fugitive dust sensor are single by data line and center control
First G connection;
Sensor unit G is connect by data line with the central control unit G, and the data being collected into are sent to central control
Data are saved with database form and carry out self diagnosis by unit G processed, central control unit G generates report, identifies in report
Fault message is automatically uploaded to monitoring center G by the fault messages such as sensor failure signal, abnormal signal, and activates alarm
Unit G.
9. a kind of architectural engineering comprehensive data acquisition analysis according to claim 1 and long-distance Log server system, feature exist
In the fugitive dust noise module: for real-time and accurately acquiring environmental data, then data being transmitted by wireless transmission
To user inspection center, after noise, dust data can be handled by computer stored, statistics etc., with the shape of figure and report
Formula, which is sent to accurately and in time in the data relay machine of building site, carries out concentrated collection and pretreatment, then passes result universal remote
It is defeated to arrive terminal system.
10. a kind of architectural engineering comprehensive data acquisition analysis according to claim 1 and long-distance Log server system, feature exist
In the geological disaster monitoring module: for being collected, issuing to all kinds of geo-hazard early-warning information, share and intercommunication;
Geological Hazards Monitoring module further includes sensor unit H, central control unit H, monitoring center H, alarm unit H;
Sensor unit H is connect by data line with the central control unit H, and the geological disaster data being collected into are sent
It gives central control unit H, central control unit H to save data with database form and carries out self diagnosis and generate report, know
The fault messages such as sensor failure signal, abnormal signal, are automatically uploaded to monitoring center for fault message, and swash in other report
Alarm unit H living.
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110715686A (en) * | 2019-10-23 | 2020-01-21 | 广州市吉华勘测股份有限公司 | High formwork supporting alarm system and method |
CN110880096A (en) * | 2019-11-20 | 2020-03-13 | 广西越知网络股份有限公司 | Multi-party cooperative office system for constructional engineering |
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104270618A (en) * | 2014-10-22 | 2015-01-07 | 广州金匙信息科技有限公司 | Network video monitoring system capable of achieving automatic intrusion alarm |
CN107479466A (en) * | 2017-08-24 | 2017-12-15 | 北京融通智慧科技有限公司 | The high-supported formwork deformation real-time monitoring system and monitoring method of wisdom building site control platform |
CN107493341A (en) * | 2017-08-24 | 2017-12-19 | 北京融通智慧科技有限公司 | The method that a kind of monitoring system of wisdom building site control platform is docked with cloud platform |
-
2019
- 2019-06-26 CN CN201910562025.3A patent/CN110310210A/en active Pending
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104270618A (en) * | 2014-10-22 | 2015-01-07 | 广州金匙信息科技有限公司 | Network video monitoring system capable of achieving automatic intrusion alarm |
CN107479466A (en) * | 2017-08-24 | 2017-12-15 | 北京融通智慧科技有限公司 | The high-supported formwork deformation real-time monitoring system and monitoring method of wisdom building site control platform |
CN107493341A (en) * | 2017-08-24 | 2017-12-19 | 北京融通智慧科技有限公司 | The method that a kind of monitoring system of wisdom building site control platform is docked with cloud platform |
Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110715686A (en) * | 2019-10-23 | 2020-01-21 | 广州市吉华勘测股份有限公司 | High formwork supporting alarm system and method |
CN110880096A (en) * | 2019-11-20 | 2020-03-13 | 广西越知网络股份有限公司 | Multi-party cooperative office system for constructional engineering |
CN110880096B (en) * | 2019-11-20 | 2023-10-31 | 广西越知网络股份有限公司 | Multi-party collaborative office system for building engineering |
CN111189488A (en) * | 2019-12-13 | 2020-05-22 | 精英数智科技股份有限公司 | Sensor value abnormity identification method, device, equipment and storage medium |
CN111189488B (en) * | 2019-12-13 | 2020-12-04 | 精英数智科技股份有限公司 | Sensor value abnormity identification method, device, equipment and storage medium |
CN113487157A (en) * | 2021-06-30 | 2021-10-08 | 四川交达预应力工程检测科技有限公司 | Cloud technology-based unmanned supervision platform and method for prestress construction quality |
CN113487157B (en) * | 2021-06-30 | 2023-12-15 | 四川交达预应力工程检测科技有限公司 | Cloud technology-based prestress construction quality unmanned supervision platform and method |
CN115623357A (en) * | 2022-09-20 | 2023-01-17 | 奥利机械(集团)有限公司 | Wireless remote sensing communication method and system for water supply equipment pump room |
CN115330002A (en) * | 2022-10-14 | 2022-11-11 | 山东力拓智能科技有限公司 | Intelligent building operation and maintenance management system |
CN117201501A (en) * | 2023-09-15 | 2023-12-08 | 武汉鲸禾科技有限公司 | Intelligent engineering sharing management system and operation method |
CN117201501B (en) * | 2023-09-15 | 2024-03-26 | 武汉鲸禾科技有限公司 | Intelligent engineering sharing management system and operation method |
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Application publication date: 20191008 |