CN216050052U - High formwork safety monitoring system - Google Patents

Abstract

The application discloses high formwork safety monitoring system, it includes the weight induction system of response template bearing and the inclination induction system of response template below steel pipe inclination, and weight induction system and inclination induction system install respectively in the lower extreme of template, and weight induction system and inclination induction system all are connected with the data integration device that is used for integrating the data, and data integration device communication connection has data analysis device. This application all monitors in real time to the bearing of high formwork template, the inclination and the displacement degree of steel pipe, reduces the interval that detects, can in time carry out the early warning when high formwork stability is relatively poor, or can in time salvage when the mechanical structure of high formwork lasts to worsen, is convenient for in time investigate and corresponds hidden danger.

Description

High formwork safety monitoring system

Technical Field

The invention relates to the field of high formwork supporting, in particular to a high formwork supporting safety monitoring system.

Background

At present, a high formwork refers to formwork operation with a formwork height greater than or equal to 8 meters, when the formwork support is high, pressure borne by a steel pipe of the formwork support is large, and when the pressure borne by the steel pipe exceeds a borne threshold value, the steel pipe is bent and deformed, so that the overall mechanical structure of the high formwork is changed, the formwork is collapsed integrally, and loss of lives and properties is easily caused.

In the related art, in order to reduce the phenomenon that the high formwork collapses, the deformation of the high formwork needs to be measured manually and periodically by using related measuring tools, whether the steel pipe related to the high formwork deforms or not is detected, and if the deformation continuously occurs, related constructors need to be informed to evacuate.

The related art has the following defects that when the measurement is carried out in a manual mode, an interval period exists between two adjacent measurements, and when the deformation of the steel pipe occurs in the interval period, accidents are easily caused due to the fact that the evacuated personnel are not in time.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that there is the interval in adopting manual measurement, this application provides a high formwork safety monitoring system.

The application provides a high formwork safety monitoring system adopts following technical scheme:

the utility model provides a high formwork safety monitoring system, includes the weight induction system of response template bearing and the inclination induction system of response template below steel pipe inclination, the weight induction system with inclination induction system install respectively in the lower extreme of template, the weight induction system with inclination induction system all is connected with the data integration device that is used for integrating the data, data integration device communication connection has data analysis device.

Through adopting above-mentioned technical scheme, weight induction system responds to the weight of high formwork template or the bearing of steel pipe, inclination induction system responds to the degree of inclination of steel pipe in the high formwork, weight induction system and inclination induction system all with the data transmission to the data integration device that the response generated, the data integration device is with data transmission to data analysis device, carry out the analysis to data through data analysis device, the messenger can judge the weight of the template that the steel pipe bore in the current high formwork and the degree of inclination of steel pipe, thereby be convenient for carry out real time monitoring to high formwork, reduce measuring interval, make high formwork whole safer.

Optionally, the weight sensing device includes a plurality of weight sensors, and the plurality of weight sensors are disposed at a connection position of the template and the steel pipe.

Through adopting above-mentioned technical scheme, when weight induction system was weight sensor, responded to the weight of steel pipe upper end template through weight sensor, the messenger can acquire the weight data of template, and the messenger can in time measure the weight of steel pipe top template.

Optionally, the inclination sensing device includes a plurality of inclination displacement sensors, and the plurality of inclination displacement sensors are respectively disposed on the outer circumferential wall of the steel pipe.

By adopting the technical scheme, when the inclination angle sensing device is the inclination angle displacement sensor, the inclination angle displacement sensor can sense the inclination angle of the steel pipe in the high formwork and can simultaneously sense the unique inclination angle of the steel pipe, so that inclination angle data and displacement data changed in the supporting process of the steel pipe can be obtained, and the inclination angle and the displacement of the steel pipe can be measured.

Optionally, the data integration device is disposed at the steel pipe and located at one end of the tilt angle sensing device, and the data integration device includes a plurality of data slaves, and each data slave is connected to the weight sensor and the tilt angle displacement sensor.

By adopting the technical scheme, when the data integration device is a data slave machine, the data slave machine is respectively connected with the data weight sensor and the inclination angle displacement sensor, so that the weight data, the inclination angle data and the displacement data can be received and integrated, and the integrated weight data, the integrated inclination angle data and the integrated displacement data can be distributed.

Optionally, the data analysis device includes a data master, and the data master is in communication connection with the plurality of data slaves respectively.

By adopting the technical scheme, when the data slave device is the data master, the data distributed by the data slave is analyzed in real time through the data master.

Optionally, the data integration device is provided with a 3G/4G communication module for communicating with the data analysis device.

By adopting the technical scheme, the 3G/4G enabling module is a data integration device and can establish remote communication with the data analysis device.

Optionally, the monitoring system further comprises an alarm device installed on the steel pipe, the alarm device is in communication connection with the data analysis device, the alarm device is set to be an audible and visual alarm, and the audible and visual alarm is installed at the steel pipe.

By adopting the technical scheme, when the weight data, the inclination angle data and the displacement data are obtained after the data analysis device analyzes the weight data, the inclination angle data and the displacement data and exceed the threshold value, the warning device gives an alarm to constructors in time, so that the constructors can withdraw from a high formwork construction site in time.

Optionally, the system further comprises a settlement sensing device arranged at the steel pipe and used for measuring the settlement of the steel pipe, wherein the settlement sensing device comprises a settlement sensor, and the settlement sensor is arranged at the steel pipe and connected with the data integration device.

By adopting the technical scheme, when the settlement sensing device is set as the settlement sensor, the settlement sensor is used for measuring and acquiring the settlement data of the steel pipe and the template, and the settlement data is transmitted to the data integration device in real time, so that the settlement amount of the high formwork can be measured in time.

In summary, the present application includes at least one of the following beneficial technical effects:

1. quality or the bearing of steel pipe of high formwork template are responded to through weight induction system respectively, the degree of inclination of steel pipe is responded to in the high formwork through inclination induction system, weight induction system all with the data transmission to the data integration device that the response generated with inclination induction system, the data integration device is with data transmission to data analysis device, carry out the analysis through data analysis device to data, the messenger can judge the weight of the template that the steel pipe bore in the current high formwork and the degree of inclination of steel pipe, thereby be convenient for carry out real time monitoring to high formwork, reduce measuring interval, make high formwork whole safer.

Drawings

FIG. 1 is a block diagram of an embodiment of the present application;

FIG. 2 is a graph of a curve analysis coordinate model of a data host in an embodiment of the present application.

Reference numerals: 1. a weight sensor; 2. a tilt angle displacement sensor; 3. a sedimentation sensor; 4. a data slave; 5. a data host; 6. an audible and visual alarm.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses a high formwork safety monitoring system.

Referring to fig. 1, the high formwork safety monitoring system comprises a weight sensing device for sensing the bearing of a formwork and an inclination angle sensing device for sensing the inclination degree of a steel pipe below the formwork, wherein the weight sensing device and the inclination angle sensing device are respectively installed at the lower end of the formwork, the weight sensing device and the inclination angle sensing device are both connected with a data integration device for integrating data, and the data integration device is in communication connection with a data analysis device.

The weight sensing device comprises a plurality of weight sensors 1, and the weight sensors 1 are arranged at the connecting part of the template and the steel pipe. In the embodiment, the range of the weight sensor 1 is 2t, the resolution is 0.01t, in other embodiments, the range and the resolution of the weight sensor 1 can be other values according to the construction condition, that is, the weight sensors 1 of different models can be selected, and the installation position of the weight sensor 1 is located at the bearing node of the high formwork, so that two ends of the weight sensor 1 are respectively abutted to the formwork and the steel pipe, the weight of the formwork at the node is measured in time to generate weight data, when the weight data at the node is unchanged or does not exceed a threshold, the whole bearing of the high formwork is in a safe state, and when the weight data at the node is changed or exceeds the threshold, the change of the whole weight of the high formwork is reflected.

The inclination angle sensing device comprises a plurality of inclination angle displacement sensors 2, and the inclination angle displacement sensors 2 are respectively arranged on the peripheral wall of the steel pipe. In this embodiment, the range is 90 degrees when inclination displacement sensor 2 measures the inclination, resolution ratio is 0.01 degree, when inclination displacement sensor 2 measures the displacement, the range is 10 meters, the precision is 0.01 meter, and can measure vertical displacement and horizontal displacement respectively, high formwork practical application place corresponding to the different grade type can set up different inclination displacement sensor 2 in other embodiments, a plurality of inclination displacement sensor 2 install in the steel pipe periphery wall of high formwork through mounting means such as ferrule or nut, and be located the same steel pipe of the same node of high formwork with weight sensor 1, be convenient for supply power to inclination displacement sensor 2 and weight sensor 1 simultaneously.

Still including setting up in steel pipe department and being used for measuring the settlement induction system that the steel pipe subsided, subside induction system and include subside sensor 3, subside sensor 3 and install in steel pipe department and be connected with data integration device. The range of subsidence sensor 3 is 30 meters in this embodiment, and resolution ratio is 0.1 meter, and subsidence sensor 3 can select different models according to the high formwork project of difference in other embodiments, according to the geological demands, when the geological stability is relatively poor, mountable subside sensor 3 measures the subsidence that ground or high formwork produced, when the geological stability is stronger, can select not to adorn corresponding subsidence sensor 3 in order to reduce cost.

The data integration device is arranged at the position of the steel pipe and located at one end of the inclination angle sensing device, the data integration device comprises a plurality of data slave machines 4, each data slave machine 4 is connected with the weight sensor 1 and the inclination angle displacement sensor 2, so that the weight data, the inclination angle data and the displacement data which are respectively transmitted by the weight sensor 1 and the inclination angle displacement sensor 2 can be conveniently received nearby, and when the settlement sensor 3 is installed, the settlement data transmitted by the settlement sensor 3 can be further received nearby.

The data integration device is provided with a 3G/4G communication module for communicating with the data analysis device. The weight data, the inclination angle data, the displacement data and the settlement data received by the data slave 4 are transmitted to the data analysis device through the 3G/4G module, so that the weight data, the inclination angle data, the displacement data and the settlement data can be checked in real time, and the real-time performance of data transmission is improved.

The data analysis device comprises a data master 5, and the data master 5 is respectively connected with a plurality of data slaves 4 in a communication mode. The data host 5 is respectively provided with a first threshold, a second threshold, a third threshold and a fourth threshold corresponding to the weight data, the inclination angle data, the displacement data and the settlement data, when the data host 5 receives the weight data, the inclination data, the displacement data and the settlement data, analyzing the weight data, the inclination angle data, the displacement data and the settlement data, respectively comparing the weight data with a first threshold, the inclination angle data with a second threshold, the displacement data with a third threshold and the settlement data with a fourth threshold, judging whether the weight data is greater than the first threshold, whether the inclination angle data is greater than the second threshold, whether the displacement data is greater than the third threshold and whether the settlement data is greater than the fourth threshold, if so, and sending an alarm prompt, and if the current weight data, the inclination angle data, the displacement data and the settlement data are not greater than the allowable range, indicating that the current weight data, the inclination angle data, the displacement data and the settlement data are in the allowable range.

Referring to fig. 1 and 2, the data host 5 respectively establishes a curve analysis coordinate model for the weight data, the inclination angle data, the displacement data and the settlement data, predicts the bearing limit of the high formwork, the inclination tendency of the steel pipe, the horizontal displacement and vertical displacement tendency of the formwork and the steel plate, the settlement tendency and the like by analyzing the coordinate curves of the weight data, the inclination angle data, the displacement data and the settlement data, evacuates related personnel in advance before the collapse of the high formwork due to the change of the mechanical structure of the high formwork, and increases the safety performance.

The data analysis device further comprises a display terminal, the display terminal comprises a host terminal and a mobile phone APP terminal, weight data, inclination angle data, displacement data and settlement data can be checked through the display terminal, the weight data, the inclination angle data and the change of the displacement data and the settlement data are observed, when the data host 5 analyzes the weight data according to the curve coordinate model, the inclination angle data and one or more of the displacement data and the settlement data are larger than corresponding threshold values, or when one or more of the weight data, the inclination angle data, the displacement data and the settlement data are in a continuously deteriorated state, the situation that the mechanical structure stability of the current high-branch formwork is poor is shown, early warning is timely sent out, and therefore rush repair is timely carried out, related personnel are evacuated, and corresponding hidden dangers are investigated.

The alarm device is in communication connection with the data analysis device and is set to be an audible and visual alarm 6, and the audible and visual alarm 6 is installed at the steel pipe. When the data host 5 sends out early warning, the early warning signal is transmitted to the audible and visual alarm 6, when the audible and visual alarm 6 receives the early warning signal, the audible and visual alarm 6 simultaneously sends out warning related sound and starts light with strong warning performance for early warning, and the early warning light can be different correspondingly. The warning sound of the audible and visual alarm 6 can be 120 decibels, and the early warning effect is improved.

The implementation principle of the high formwork supporting safety monitoring system in the embodiment of the application is as follows: the weight sensor 1 senses the weight of a high formwork or the bearing of a steel pipe to generate weight data, the inclination angle displacement sensor 2 senses the inclination degree and the displacement of the steel pipe in the high formwork to generate inclination angle data and displacement data, the settlement sensor 3 senses the settlement of the ground and the steel pipe to generate a settlement value, the weight sensor 1, the inclination angle displacement sensor 2 and the settlement sensor 3 transmit the data generated by sensing to the data slave 4, the data slave 4 transmits the received data to the data host 5, and the data host 5 analyzes the data to judge the current inclination degree of the formwork and the steel pipe born by the steel pipe in the high formwork, so that the high formwork can be monitored in real time conveniently, the measuring interval is reduced, and the whole high formwork is safer.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The high formwork safety monitoring system is characterized by comprising a weight sensing device for sensing the bearing of a formwork and an inclination angle sensing device for sensing the inclination degree of a steel pipe below the formwork, wherein the weight sensing device and the inclination angle sensing device are respectively arranged at the lower end of the formwork, the weight sensing device and the inclination angle sensing device are both connected with a data integration device for integrating data, and the data integration device is in communication connection with a data analysis device.

2. The high formwork safety monitoring system of claim 1, wherein: the weight sensing device comprises a plurality of weight sensors (1), and the weight sensors (1) are arranged at the connecting part of the template and the steel pipe.

3. The high formwork safety monitoring system of claim 2, wherein: the inclination angle sensing device comprises a plurality of inclination angle displacement sensors (2), and the inclination angle displacement sensors (2) are arranged on the outer peripheral wall of the steel pipe respectively.

4. The high formwork safety monitoring system of claim 3, wherein: the data integration device is arranged at the position of the steel pipe and located at one end of the inclination angle sensing device, the data integration device comprises a plurality of data slave machines (4), and each data slave machine (4) is connected with the weight sensor (1) and the inclination angle displacement sensor (2).

5. The high formwork safety monitoring system of claim 4, wherein: the data analysis device comprises a data host (5), and the data host (5) is respectively in communication connection with the data slaves (4).

6. The high formwork safety monitoring system of claim 4, wherein: the data integration device is provided with a 3G/4G communication module for communicating with the data analysis device.

7. The high formwork safety monitoring system of claim 1, wherein: the alarm device is in communication connection with the data analysis device, the alarm device is set to be an audible and visual alarm (6), and the audible and visual alarm (6) is installed at the steel pipe.

8. The high formwork safety monitoring system of claim 1, wherein: the device is characterized by further comprising a settlement sensing device arranged at the steel pipe and used for measuring the settlement of the steel pipe, wherein the settlement sensing device comprises a settlement sensor (3), and the settlement sensor (3) is arranged at the steel pipe and connected with the data integration device.

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