DE202021103315U1 - BIM-based management and monitoring device for the structural safety of a structural ground cover - Google Patents

Abstract

BIM-based management and monitoring device for the structural safety of a structural ground cover, comprising: a data acquisition sensor (1) for data acquisition; a monitoring system for the support of a structural ground cover (2), which comprises a monitoring instrument for the support of a structural ground cover (2.1), a Cloud platform of the software of the monitoring system for the wearing of a structural ground cover (2.2) and a PC terminal of the software of the monitoring system for the wearing of a structural ground cover (2.3), the data acquisition sensor (1) in communication with the monitoring instrument for the wearing a structural ground cover (2.1); an alarm device (3) comprising a sound and light alarm device (3.1) and a mobile phone terminal of the software of the monitoring system for the support of a structure (3.2), the sound and light alarm device (3.1 ) in communication connection with the monitoring instrument ument stands for the carrying of a structural ground cover (2.1), and where the cloud platform of the software of the monitoring system for the carrying of a structural ground cover (2.2) in communication connection with the mobile phone terminal of the software of the monitoring system for the carrying of a structure (3.2) stands.

Description

TECHNICAL AREA

The present invention relates to the technical field of civil engineering and the technical field of light rail traffic, in particular a BIM-based management and monitoring device for the structural safety of a structural ground cover.

STATE OF THE ART

With the acceleration of urbanization, the density of the urban population has increased, and the use of urban space resources shows a general trend towards development into a third space. The use of urban underground spaces has continued to increase, such as subways, urban pipe corridors, underground parking garages, underground shopping malls, underground corridors, and construction of underground structures. The development of urban underground spaces contributes to the improvement of the transport environment, the improvement of the industrial structure and the improvement of the living standards of the city dwellers. The construction of underground superstructures of buildings and urban underground railroad tracks often involves the need to backfill the earth above the underground structure, during construction large machines such as excavators, bulldozers and road rollers are required to carry out the construction above the superstructures, and the The thickness of the ground cover can even reach several meters. During this construction period, there are great hidden dangers to safety. Due to the inability to monitor and warn in real time during construction, relevant collapse accidents have occurred frequently in recent years.

The current management and monitoring method for the structural safety of the land cover of a structure adopts the manual monitoring method and has the following problems: (1) manual data collection is required, which is inefficient and time consuming; (2) it is difficult to ensure the safety of the surveillance personnel; (3) in manual monitoring, it can only be monitored point by point, and it is impossible to monitor all important points at the same time; (4) the monitoring data is not continuous, it is difficult to collect data, and it is difficult to timely report back, store and analyze the data; (5) When the structure exceeds the early warning area, it is difficult to alert and notify the management personnel in a timely manner, resulting in unnecessary operator injury and property damage.

CONTENT OF THE PRESENT INVENTION

The present application aims to provide a BIM-based management and monitoring device for the structural safety of a structural ground cover that can overcome the deficiencies of the prior art.

In order to achieve the above object, the present application provides a BIM-based management and monitoring device for the structural safety of a structural ground cover, comprising: a data acquisition sensor for data acquisition; a structural land cover bearing monitoring system comprising a structural land cover bearing monitoring tool, a cloud platform of the monitoring system software for the structural land cover bearing and a PC terminal of the structural land cover bearing software of the monitoring system, wherein the data acquisition sensor is in communication with the monitoring instrument for supporting structural land cover; an alarm device comprising a sound and light alarm device and a mobile phone terminal of the software of the monitoring system for the support of a structure, the sound and light alarm device being in communication with the monitoring instrument for the support of a structural land cover, and the cloud platform the supervisory system software for structural support is in communication with the cellular phone terminal of the supervisory system software for structure support.

In a preferred embodiment, the data acquisition sensor comprises a pressure sensor, a displacement sensor, a tilt sensor, or a combination thereof.

In a preferred embodiment, the structural land cover wearing monitoring system can perform continuous real-time monitoring, and the cloud platform of the structural land cover monitoring system software cloud platform can store the monitoring data for a long time.

In a preferred embodiment, the structural land cover bearing monitoring tool has the functions of project selection, monitoring point placement, real-time monitoring, alarm information, historical records and system settings; wherein the function for the selection of the project comprises in particular: selecting the project in which the planned monitoring area is located, determining the name of the project; and wherein the function for the monitoring point arrangement comprises in particular: selecting the monitoring points in the beam and plate structure based on a position with a large sectional area, a component with a largest span, a position with a highest support height, a position with the most unfavorable horizontal restriction and a position of one of a most concentrated traffic load; and wherein the real-time monitoring function comprises in particular: visually displaying the sensor monitoring data in the form of a diagram of the fold lines and synchronizing in real time; and wherein the function for the alarm information comprises in particular: reflecting in the alarm information the detection values which exceed the early warning value or the alarm value; and wherein the function for the historical records comprises in particular: recording the monitoring data of the monitoring points in the monitoring area of the previous monitoring projects; and wherein the function for the system settings in particular comprises: recording the model parameter information of the monitoring instrument for the support of a structural land cover.

In a preferred embodiment, the cloud platform of the software of the monitoring system for the support of a structural land cover comprises a security monitoring module, a data statistics module, a platform setting module and an associated platform module, the security monitoring module being used for the following operations: Displaying the distribution of the monitoring projects in the respective Provinces on a China map, querying the projects being monitored, the projects being monitored and the projects being monitored, checking the project overview and checking that the monitoring is complete; and wherein the security monitoring module is used for the following operations: monitoring the data details, monitoring the vertical displacement, monitoring the horizontal displacement, and checking the data exceeding the early warning value and the data exceeding the alarm value; and wherein the platform setting module is used for the following operations: setting an early warning value, an alarm value, the number and information of the monitoring points.

In a preferred embodiment, the security monitoring module has the functions for the notification of the short messages, the information of the monitoring points and the operational record; wherein the notification via the short messages comprises in particular the following functions: setting a contact person for the project department, adding personnel names, positions and mobile phone numbers, sending a message to the contact person in the project department as soon as the early warning value and the alarm value are exceeded; and wherein the information of the monitoring points comprises in particular the following function: individual processing of the position information of the monitoring points; and wherein the operational record comprises in particular the following function: recording the account and the information processing time in the security monitoring module.

In a preferred embodiment, the monitoring instrument for structural land cover wearing takes a wireless WAN transmission with the cloud platform of the software of the monitoring system for the bearing of a structural land cover, the PC terminal of the software of the monitoring system for the bearing of a structural land cover and the Mobile phone terminal of the structural support monitoring system software, the structural support monitoring instrument accepting WAN wireless transmission with the data acquisition sensor and the sound and light alarm device.

In a preferred embodiment, the power supply of the data acquisition sensor, the sound and light alarm device and the mobile phone terminal of the software of the monitoring system for supporting a structure adopts a mobile power supply, the power supply of the monitoring instrument for supporting a structural ground cover and the PC terminal the monitoring system's software adopts ordinary power cord for structural land cover support.

The existing technology has the following problems: (1) manual data collection is required, which is inefficient and time consuming; (2) it is difficult to ensure the safety of the surveillance personnel; (3) in manual monitoring, it can only be monitored point by point, and it is impossible to monitor all important points at the same time; (4) the monitoring data is not continuous, it is difficult to collect data, and it is difficult to timely report back, store and analyze the data; (5) when the structure exceeds the early warning area, it is difficult to alert and notify the management personnel in a timely manner; With regard to the problems from the prior art, the present invention provides a BIM-based management and monitoring device for the structural safety of a structural ground cover available, compared to the prior art, the BIM-based management and monitoring device for the structural safety of a structural ground cover of the present application has the following advantages: based on the BIM technology, the device realizes the The present invention has the functions of monitoring all key points simultaneously and performing early warning and alarms in good time; moreover, automatic continuous monitoring and automatic data recording can be realized, thereby solving the problems of the prior art.

Figure list

• 1 FIG. 13 shows a structural block diagram of a BIM-based management and monitoring device for the structural safety of a structural ground cover in an embodiment of the present invention.
• 2 Figure 12 is a schematic diagram of a first construction use structure in an embodiment of the present invention.
• 3 Figure 12 is a schematic diagram of a second construction use structure in an embodiment of the present invention.

DETAILED DESCRIPTION

The detailed embodiments of the present invention are explained in more detail in connection with the figures, but it goes without saying that the scope of protection of the present invention is not limited to the detailed embodiments.

Unless expressly stated otherwise, the term “comprising” or its transformations such as “containing” or “including” is understood throughout the description and claims to include the elements or components explained, while other elements or other components are not excluded are.

1 FIG. 13 shows a structural block diagram of a BIM-based management and monitoring device for the structural safety of a structural ground cover in an embodiment of the present invention. 2 Figure 12 is a schematic diagram of a first construction use structure in an embodiment of the present invention. A BIM-based management and monitoring device for the structural safety of a structural land cover according to the present invention, comprising: a data acquisition sensor 1 , a monitoring system for structural ground cover wear 2 and an alarm device 3 . In doing so, the data acquisition sensor 1 used for data acquisition. The monitoring system for the wearing of a structural ground cover 2 includes a monitoring tool for structural land cover support 2.1 , a cloud platform of the software of the monitoring system for the support of a structural ground cover 2.2 and a PC terminal of the software of the monitoring system for carrying a structural ground cover 2.3 , the data acquisition sensor 1 in communication with the monitoring instrument for structural land cover support 2.1 stands. The alarm device 3 includes a sound and light alarm device 3.1 and a cellular phone terminal of the supervisory system software for structure support 3.2 , the monitoring tool for carrying a structural land cover 2.1 in communication link with the sound and light alarm device 3.1 stands, and where the cloud platform of the software of the monitoring system for the support of a structural land cover 2.2 in communication link with the mobile phone terminal of the software of the monitoring system for the support of a structure 3.2 stands.

In a preferred embodiment, the data acquisition sensor comprises 1 a pressure sensor, a displacement sensor, a tilt sensor, or a combination thereof.

In a preferred embodiment, the monitoring system can be for structural ground cover support 2 carry out continuous monitoring in real time, using the cloud platform of the software of the monitoring system for the support of a structural land cover 2.2 can save the monitoring data for a long time.

In a preferred embodiment, the monitoring instrument includes structural ground cover support 2.1 about the functions for project selection, monitoring point arrangement, real-time monitoring, alarm information, historical records and system settings; wherein the function for the selection of the project comprises in particular: selecting the project in which the planned monitoring area is located, determining the name of the project; and wherein the function for the monitoring point arrangement comprises in particular: when selecting the monitoring points, mainly a position with a large sectional area, a component with a largest span, a position with a highest support height, a position with the most unfavorable horizontal restriction and a position of a most concentrated traffic load (such as an installation position of the fabric machine) in the beam and plate structure, etc. taken into account. Based on the Above factors, the sites to be monitored are selected, then the sensor is appropriately connected to the monitoring instrument for carrying a structural ground cover 2.1 connected. and wherein the real-time monitoring function comprises in particular: visually displaying the sensor monitoring data in the form of a diagram of the fold lines and synchronizing in real time; and wherein the function for the alarm information comprises in particular: reflecting in the alarm information the detection values which exceed the early warning value or the alarm value; and wherein the function for the historical records comprises in particular: recording the monitoring data of the monitoring points in the monitoring area of the previous monitoring projects; and wherein the function for the system settings in particular comprises: recording the model parameter information of the monitoring instrument for the support of a structural land cover.

In a preferred embodiment, the cloud platform comprises the software of the monitoring system for the support of a structural ground cover 2.2 Hardware and software, wherein the hardware can be understood as a cloud server, and wherein the software can be understood to include a security monitoring module, a data statistics module, a platform setting module and an associated platform module. The security monitoring module can be used for the following operations: Displaying the distribution of the monitoring projects in the respective provinces on a China map; the projects in Monitoring, the projects to be monitored and the monitored projects can be queried by clicking on the project the project overview can be seen and it can be checked whether the monitoring has been completed. and wherein the data statistics module is used for the following operations: monitoring all data details, and the data can be divided into vertical displacement monitoring and horizontal displacement monitoring, etc., and the data exceeding the early warning value and the data which exceeding the alarm value can be checked uniformly, and the platform setting module is used for the following operations: setting an early warning value, an alarm value, the number and information of the monitoring points, and the like. and wherein the associated platform module is used for the following operations: downloading the specifications used by the platform, downloading the platform manual and customer service contact information.

In a preferred embodiment, the security monitoring module has the functions for the construction plan, the monitoring plan, the notification via the short messages, the information of the monitoring points and the operational record; where the function for the construction plan comprises: the interface contains function keys for uploading and downloading files which are used for uploading the "special construction plan for the safety of tall and large formwork". The function for the monitoring plan comprises: the interface contains function keys for uploading and downloading files that are used to upload the “special construction plan for the monitoring security of tall and large formwork”. The function for the notification via the short messages includes: setting a contact person for the project department, adding personnel names, positions and mobile phone numbers, sending a message to the contact person in the project department as soon as the early warning value and the alarm value are exceeded; several contact persons can be set. The function of the information of the monitoring points includes: individual editing of the position information of the monitoring points, such as the transfer position of primary and secondary carriers and the transfer position of secondary carriers, etc. The function of the operational record includes: recording the account and the information processing time in the security monitoring module.

In a preferred embodiment, the monitoring instrument takes on the wearing of a structural ground cover 2.1 a wireless WAN transmission with the cloud platform of the software of the monitoring system for the support of a structural ground cover 2.2 , the PC terminal of the monitoring system's software for carrying a structural ground cover 2.3 and the mobile phone terminal of the software of the supervisory system for the support of a structure 3.2 at, the monitoring tool for carrying a structural land cover 2.1 a wireless WAN transmission with the data acquisition sensor 1 and the sound and light alarm device 3.1 accepts.

In a preferred embodiment, the data acquisition sensor is supplied with power 1 , the sound and light alarm device 3.1 and the mobile phone terminal of the software of the supervisory system for the support of a structure 3.2 a mobile power supply, the power supply of the monitoring instrument for carrying a structural ground cover 2.1 and the PC terminal of the software of the monitoring system for the support of a structural ground cover 2.3 accepts ordinary power cord.

After reasonable determination of the early warning value and the alarm value, the Early warning and alarm parameters can be set on the monitoring instrument. During the process of carrying the load of the structure, the monitoring instrument compares the real-time data recorded by the sensor with the threshold value and emits a corresponding sound and light alarm as an indication when the threshold value is approached and reached. The determination of the early warning value and the alarm value is in particular as follows: due to the different design, form of installation and materials used in the respective projects, the monitoring limit can be determined according to the relevant regulations, the special project plan, the arguments of the experts and the reference bias situation and through planning, Construction and monitoring units are confirmed. The early warning value can be 0.8 times the alarm value. The sensor sends the sensed data to the monitoring instrument for structural land cover support 2.1 and the instrument compares the monitoring data with the early warning value and the alarm value. If the value is greater than the early warning value and less than the alarm value, it belongs to the early warning area, if the value is greater than the alarm value, it belongs to the alarm area. If the value is smaller than the early warning range, no alarm signal is transmitted; if the value belongs to the early warning range or alarm range, it is necessary to output an alarm signal to the sound and light alarm device. The monitoring tool for carrying a structural ground cover 2.1 sends all data monitored by the respective sensors simultaneously to the platform of the Internet of Things (namely the cloud platform of the software of the monitoring system for the support of a structural ground cover 2.2 ) and the BIM platform. The assignment of the sensor and the BIM model can be realized through the data connection of the BIM platform. If the value belongs to the early warning area or the alarm area, the short message of the alarm from the cloud platform becomes the software of the monitoring system for the carrying of structural ground cover 2 sent to the contact person in the project department.

As in 3 shown, a BIM-based management and monitoring device for the structural safety of a structural ground cover, the difference between the monitoring device and the monitoring device in the first embodiment is that the data acquisition sensor is not in direct contact with a force-bearing structure to be monitored 4th stands, but the power through a medium 5 is transmitted, and the properties of the medium when setting the early warning value and the alarm value 5 how deformation under force should be taken into account. This in 3 The example used uses an indirect contact method, in the case of indirect contact the force transmission of the intermediate medium is to be taken into account; the reason for setting the indirect contact method is that in most cases the formwork of the structure cannot be dismantled before the completion of the construction of the ground cover, and the sensors are only loaded by the formwork and can transmit the force.

• S100: das Überwachungsinstrument für das Tragen einer strukturellen Bodendeckung 2.1 empfängt die von mehreren Datenerfassungssensoren erfassten Überwachungsdaten, Zuordnen des Bereichs, in dem sich die Überwachungsdaten befinden, der Projektbezeichnung und der Positionsinformationen der Überwachungsdaten; Speichern und Übertragen an die Cloud-Plattform der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.2 und die BIM-Plattform;
• S200: das Überwachungsinstrument für das Tragen einer strukturellen Bodendeckung 2.1 interagiert mit der Ton- und Lichtalarmvorrichtung 3.1 und gibt ein Vor-Ort-Frühwarnsignal aus, um die Ton- und Lichtalarmvorrichtung 3.1 zur Frühwarnung anzutreiben, wenn die Überwachungsdaten den Frühwarnwert überschreiten, und/oder interagiert mit der Ton- und Lichtalarmvorrichtung 3.1 und gibt ein Vor-Ort-Alarmsignal aus, um die Ton- und Lichtalarmvorrichtung 3.1 zum Alarm anzutreiben, wenn die Überwachungsdaten den Alarmwert überschreiten;
• S300: gemäß den Positionsinformationen der Überwachungspunkte, dem Bereich, in dem sie sich befinden und der Projektbezeichnung ordnet die BIM-Plattform die Überwachungsdaten dem BIM-Modell zu;
• S400: basierend auf den Benutzersteuerungsanweisungen des PC-Terminals der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.3 interagiert die Cloud-Plattform der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.2 mit der BIM-Plattform, erhält die BIM-Modelldaten mit den zugeordneten Überwachungsdaten basierend auf der Projektbezeichnung und überträgt diese an das PC-Terminal der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.3;
• S500: die Cloud-Plattform der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.2 speichert die Positionsinformationen und die Überwachungsdaten der Überwachungspunkte und interagiert mit dem Mobiltelefon-Terminal der Software des Überwachungssystems für das Tragen einer Struktur 3.2 und gibt eine Frühwarninformation aus, wenn die Überwachungsdaten den Frühwarnwert überschreiten, und/oder interagiert mit dem Mobiltelefon-Terminal der Software des Überwachungssystems für das Tragen einer Struktur 3.2 und gibt eine Alarminformation aus, wenn die Überwachungsdaten den Alarmwert überschreiten.

The exemplary embodiment of the present application also provides a management and monitoring method for the structural safety of the structural ground cover, comprising:

• S100: the monitoring tool for carrying structural ground cover 2.1 receives the monitoring data acquired by a plurality of data acquisition sensors, assigning the area in which the monitoring data is located, the project name and the position information of the monitoring data; Saving and transferring to the cloud platform of the software of the monitoring system for the support of a structural ground cover 2.2 and the BIM platform;
• S200: the monitoring tool for carrying structural ground cover 2.1 interacts with the sound and light alarm device 3.1 and issues an on-site early warning signal to the sound and light alarm device 3.1 to drive for early warning when the monitoring data exceeds the early warning value, and / or interacts with the sound and light alarm device 3.1 and issues an on-site alarm signal to the sound and light alarm device 3.1 drive to alarm when the monitoring data exceeds the alarm value;
• S300: according to the position information of the monitoring points, the area in which they are located and the project name, the BIM platform assigns the monitoring data to the BIM model;
• S400: based on the user control instructions of the PC terminal of the software of the monitoring system for the support of a structural ground cover 2.3 the cloud platform interacts with the software of the monitoring system for the support of a structural ground cover 2.2 with the BIM platform, receives the BIM model data with the assigned monitoring data based on the project name and transfers this to the PC terminal of the software of the monitoring system for carrying a structural ground cover 2.3 ;
• S500: the cloud platform of the monitoring system software for the support of a structural ground cover 2.2 saves the Position information and the monitoring data of the monitoring points and interacts with the mobile phone terminal of the software of the monitoring system for the support of a structure 3.2 and outputs early warning information when the monitoring data exceeds the early warning value, and / or interacts with the mobile phone terminal of the software of the monitoring system for carrying a structure 3.2 and outputs alarm information when the monitoring data exceeds the alarm value.

• S001: die Cloud-Plattform der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.2 interagiert mit dem PC-Terminal der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.3, um die Informationen des Initialisierungskonfiguration, die Erfassungsanweisungen, die Stoppanweisungen und die Steueranforderungen des Datenerfassungssensors zu empfangen;
• S002: basierend auf den Informationen der Initialisierungskonfiguration vervollständigt die Cloud-Plattform der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.2 die Konfiguration des Sensornamen, des Messbereichs, des Frühwarnwerts und des Alarmwerts und überträgt die Informationen der Initialisierungskonfiguration ans Überwachungsinstrument für das Tragen einer strukturellen Bodendeckung 2.1;
• S003: basierend auf den Erfassungsanweisungen und den Stoppanweisungen interagiert die Cloud-Plattform der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.2 mit dem Überwachungsinstrument für das Tragen einer strukturellen Bodendeckung 2.1 und erfasst durch das Überwachungsinstrument für das Tragen einer strukturellen Bodendeckung 2.1 gemäß den Erfassungsanweisungen und den Stoppanweisungen die Überwachungsdaten von den mehreren Datenerfassungssensoren;

Before step S100 that the monitoring instrument for the wearing of a structural land cover 2.1 receives monitoring data collected by multiple data collection sensors, the method further comprises:

• S001: the cloud platform of the software of the monitoring system for the support of a structural ground cover 2.2 interacts with the PC terminal of the software of the monitoring system for the support of a structural ground cover 2.3 to receive the initialization configuration information, acquisition instructions, stop instructions, and data acquisition sensor control requests;
• S002: based on the information of the initialization configuration, the cloud platform completes the software of the monitoring system for the support of a structural ground cover 2.2 the configuration of the sensor name, the measuring range, the early warning value and the alarm value and transmits the information of the initialization configuration to the monitoring instrument for the carrying of a structural ground cover 2.1 ;
• S003: based on the acquisition instructions and the stop instructions, the cloud platform interacts with the software of the monitoring system for the support of a structural ground cover 2.2 with the monitoring tool for carrying a structural land cover 2.1 and detected by the monitoring instrument for structural land cover support 2.1 according to the acquisition instructions and the stop instructions, the monitoring data from the plurality of data acquisition sensors;

• S400: basierend auf den Steueranforderungen interagiert die Cloud-Plattform der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.2 mit der BIM-Plattform, erhält die BIM-Modelldaten mit den zugeordneten Überwachungsdaten und überträgt diese an das PC-Terminal der Software des Überwachungssystems für das Tragen einer strukturellen Bodendeckung 2.3. Auf den BIM-Modelldaten kann das PC-Terminal die Echtzeitüberwachungsdaten und den Zustand in dem BIM-Modell anzeigen. Dadurch wird eine vollständige Überwachung für alle Überwachungspunkte realisiert.

Specifically, based on S001-003, S400 is as follows:

• S400: based on the control requirements, the cloud platform interacts with the software of the monitoring system for the support of a structural ground cover 2.2 with the BIM platform, receives the BIM model data with the assigned monitoring data and transmits them to the PC terminal of the monitoring system's software for carrying a structural ground cover 2.3 . On the BIM model data, the PC terminal can display the real-time monitoring data and the status in the BIM model. This realizes complete monitoring for all monitoring points.

Those skilled in the art should understand that the embodiment of the present application can provide a method, system, or computer program product. Therefore, the present application may use an entirely hardware embodiment, an entirely software embodiment, or an embodiment having combined software and hardware. Additionally, the present application may utilize any form of computer program product that executes on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, etc.) containing the computer-usable program codes.

The present application is explained in connection with the flowchart and / or block diagram of the method, the device (system) and the computer program product according to the embodiment of the present application. It should be understood that the computer program instruction can be used to implement any sequence and / or block in the flowchart and / or block diagram, as well as a combination of the sequence and / or the block in the flowchart and / or block diagram. These computer program instructions may be provided to a general purpose computer, special purpose computer, embedded processor, or processor from other programmable computing devices to create a machine, so that the instructions executed by a computer or processor by other programmable computing devices can be used to implement an in a sequence or a plurality of sequences of the flowchart and / or a block or a plurality of blocks of the block diagram specific function is generated.

These computer program instructions can also be stored in a computer-readable memory that can cause a computer or other programmable data processing device to work in a certain way, so that the instruction stored in the computer-readable memory generates an article of manufacture containing the instruction device, the instruction device being an object of manufacture in a Process or multiple processes of the flow chart and / or a block or multiple blocks of the block diagram specific function implemented.

These computer program instructions can also be loaded into a computer or other programmable data processing device, so that a series of operational steps are carried out in the computer or the other programmable data processing device in order to generate computer-implemented processing such that the computer or the other programmable data processing device The executed instruction provides a step for realizing a function determined in a sequence or a plurality of sequences of the flowchart and / or a block or a plurality of blocks of the block diagram.

The foregoing discussion of the specific exemplary embodiments of the present invention is for the purpose of illustration and demonstration. These illustrations are not intended to limit the present invention to the precise form disclosed, and it is apparent that many changes and modifications can be made based on the above instructions. The purpose of choosing and explaining the exemplary embodiments is to explain the specific principles of the present invention and its practical application so that those skilled in the art can make and use various exemplary embodiments of the present invention and various different choices and modifications. It is intended that the scope of the present invention be defined by the claims and their equivalents.

Claims (8)

BIM-based management and monitoring device for the structural safety of a structural ground cover, including: a data acquisition sensor (1) for data acquisition; a monitoring system for the carrying of a structural land cover (2), which includes a monitoring tool for the carrying of a structural land cover (2.1), a cloud platform of the software of the monitoring system for the carrying of a structural land cover (2.2) and a PC terminal of the software of the A monitoring system for the wearing of a structural ground cover (2.3), wherein the data acquisition sensor (1) is in communication with the monitoring instrument for the wearing of a structural ground cover (2.1); an alarm device (3) comprising a sound and light alarm device (3.1) and a mobile phone terminal of the software of the monitoring system for supporting a structure (3.2), the sound and light alarm device (3.1) in communication with the monitoring instrument for the Carrying a structural ground cover (2.1), and wherein the cloud platform of the software of the monitoring system for carrying a structural ground cover (2.2) is in communication with the mobile phone terminal of the software of the monitoring system for carrying a structure (3.2). BIM-based management and monitoring device for the structural safety of a structural ground cover Claim 1 , characterized in that the data acquisition sensor (1) comprises a pressure sensor, a displacement sensor, an inclination sensor or a combination thereof. BIM-based management and monitoring device for the structural safety of a structural ground cover Claim 1 , characterized in that the structural land cover wearing monitoring system (2) can perform continuous monitoring in real time, and the cloud platform of the software of the structural land covering monitoring system (2.2) can store the monitoring data for a long time . BIM-based management and monitoring device for the structural safety of a structural ground cover Claim 1 characterized in that the structural land cover support instrument (2.1) has the functions of project selection, monitoring point arrangement, real-time monitoring, alarm information, historical records and system settings; wherein the function for the selection of the project comprises in particular: selecting the project in which the planned monitoring area is located, determining the name of the project; and wherein the function for the monitoring point arrangement comprises in particular: selecting the monitoring points in the beam and plate structure based on a position with a large sectional area, a component with a largest span, a position with a highest support height, a position with the most unfavorable horizontal restriction and a position of a most concentrated traffic load; and wherein the real-time monitoring function comprises in particular: visually displaying the sensor monitoring data in the form of a diagram of the fold lines and synchronizing in real time; and wherein the function for the alarm information comprises in particular: reflecting in the alarm information the detection values which exceed the early warning value or the alarm value; and wherein the function for the historical records comprises in particular: recording the monitoring data of the monitoring points in the monitoring area of the previous monitoring projects; and wherein the function for the system settings in particular comprises: recording the model parameter information of the monitoring instrument for the support of a structural land cover. BIM-based management and monitoring device for the structural safety of a structural ground cover Claim 1 , characterized in that the cloud platform of the software of the monitoring system for the support of a structural land cover (2.2) comprises a security monitoring module, a data statistics module, a platform setting module and an associated platform module, the security monitoring module being used for the following operations: displaying the distribution of the Monitoring projects in the respective provinces on a China map, querying the projects in monitoring, the projects to be monitored and the monitored projects, checking the project overview and checking whether the monitoring is completed; and wherein the security monitoring module is used for the following operations: monitoring the data details, monitoring the vertical displacement, monitoring the horizontal displacement, and checking the data exceeding the early warning value and the data exceeding the alarm value; and wherein the platform setting module is used for the following operations: setting an early warning value, an alarm value, the number and information of the monitoring points. BIM-based management and monitoring device for the structural safety of a structural ground cover Claim 5 , characterized in that the security monitoring module has the functions for the notification of the short messages, the information of the monitoring points and the operation record; wherein the notification via the short messages comprises in particular the following functions: setting a contact person for the project department, adding personnel names, positions and mobile phone numbers, sending a message to the contact person in the project department as soon as the early warning value and the alarm value are exceeded; and wherein the information of the monitoring points comprises in particular the following function: individual processing of the position information of the monitoring points; and wherein the operational record comprises in particular the following function: recording the account and the information processing time in the security monitoring module. BIM-based management and monitoring device for the structural safety of a structural ground cover Claim 1 , characterized in that the monitoring instrument for the carrying of a structural land cover (2.1) a wireless WAN transmission with the cloud platform of the software of the monitoring system for the carrying of a structural land cover (2.2), the PC terminal of the software of the monitoring system for the Carrying a structural land cover (2.3) and the mobile phone terminal the software of the monitoring system for carrying a structure (3.2) adopts, the monitoring instrument for carrying a structural land cover (2.1) a wireless WAN transmission with the data acquisition sensor (1) and the sound and light alarm device (3.1) accepts. BIM-based management and monitoring device for the structural safety of a structural ground cover Claim 1 , characterized in that the power supply of the data acquisition sensor (1), the sound and light alarm device (3.1) and the mobile phone terminal of the software of the monitoring system for supporting a structure (3.2) assumes a mobile power supply, the power supply of the monitoring instrument for the Wearing a structural ground cover (2.1) and the PC terminal of the software of the monitoring system for wearing a structural ground cover (2.3) adopts ordinary power cords.

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