CN114266463A - Assembly type building construction quality safety management monitoring system - Google Patents

Abstract

The invention relates to the technical field of assembly type building construction, and discloses an assembly type building construction quality safety management monitoring system, which comprises an image acquisition module, a prefabricated part information acquisition module, an environment monitoring module, a hoisting steel cable monitoring module, a quality monitoring module, a foundation pit monitoring module, a data receiving module, a data processing module, a master control module and an information sending module, wherein the more comprehensive monitoring and processing of the assembly type building construction quality is realized by monitoring and processing various different information in the assembly type building construction, the problems that the assembly type building construction quality is poor and the assembly type building construction quality cannot be effectively improved due to single type of monitoring information in the prior art are effectively solved, the more comprehensive monitoring is realized, the assembly type building construction quality is effectively improved, and the more comprehensive monitoring and management are realized, the safety in the construction of the fabricated building is effectively improved, and the occurrence of unexpected conditions in the construction process of the fabricated building is reduced.

Description

Assembly type building construction quality safety management monitoring system

Technical Field

The invention relates to the technical field of fabricated buildings, in particular to a fabricated building construction quality safety management monitoring system.

Background

The fabricated building is a building which is fabricated by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories in the factory, transporting the components and accessories to a building construction site, and assembling and installing the components and accessories on the site in a reliable connection mode. A construction quality safety management monitoring system is used for carrying out strict safety management monitoring on the quality of the fabricated building construction in the fabricated building construction process.

However, in the process of implementing the technical solution of the invention in the embodiments of the present application, the inventors of the present application find that at least the following technical problems exist: when the construction quality safety management monitoring system is used for monitoring construction quality, monitored information is single, so that the quality of the assembly type building construction cannot be effectively improved, and certain influence is brought to the use of the construction quality safety management monitoring system.

Disclosure of Invention

The embodiment of the application provides an assembly type building construction quality safety management monitoring system, solves the problems that the type of monitoring information in the prior art is single, the construction quality of the assembly type building is poor, and the assembly type building construction quality cannot be effectively improved, and achieves the purposes of improving the construction quality of the assembly type building and ensuring the construction safety of the assembly type building.

The embodiment of the application provides an assembly type building construction quality safety management monitoring system, which comprises an image acquisition module, a data acquisition module and a data processing module, wherein the image acquisition module is used for acquiring stacking image information of an assembly body; the assembly body information acquisition module is used for acquiring the position information of the assembly body; the environment monitoring module is used for acquiring the construction environment information of the fabricated building, and the environment information comprises noise information and dust concentration information; the hoisting steel cable monitoring module is used for monitoring the steel cable state of the hoisting assembly part to acquire steel cable state information; the quality monitoring module is used for carrying out quality detection on an assembly body of the assembly type building to obtain the quality information of the assembly body; the foundation pit monitoring module is used for monitoring a foundation pit used for the assembly type building construction to obtain foundation pit state information; the data receiving module is used for receiving stacking image information of the assembly body, position information of the assembly body, construction environment information, steel cable state information, assembly body quality information and foundation pit state information and sending the information to the data processing module; the data processing module is used for processing stacking image information of the assembly body, position information of the assembly body, construction environment information, steel cable state information, assembly body quality information and foundation pit state information, processing the stacking image information of the assembly body to generate stacking warning information, processing the position information of the assembly body to generate position adjusting information, processing the construction environment information to generate environment control information, processing the steel cable state information to generate steel cable replacement information, processing the assembly body quality information to generate assembly body quality warning information, and processing the foundation pit state information to generate foundation pit warning information; after the stack warning information, the position adjustment information, the environment control information, the steel cable replacement information, the assembly body quality warning information and the foundation pit warning information are generated, the main control module controls the information sending module to send the stack warning information, the position adjustment information, the environment control information, the steel cable replacement information, the assembly body quality warning information and the foundation pit warning information to a preset receiving terminal.

Further, the specific processing procedure of the stack warning information is as follows: stack image information to the assembly body handles, obtains the stacking height information G of different angles, when arbitrary one in stacking height information G is greater than predetermineeing the height value, produces and stacks warning information promptly.

Further, the specific processing procedure for processing the stacking image information of the assembly body to obtain the stacking height information G is as follows:

s100: extracting stacked image information of the assembly body, wherein the stacked image information of the assembly body comprises first image information and second image information which are collected from the front end and the rear end of the assembly body, and third image information and fourth image information which are collected from the two sides of the assembly body;

s110: marking the first image information as M1, the second image information as M2, the third image information as M3 and the fourth image information as M4, marking characteristic points from the first image information M1 to obtain a characteristic point A1, and making a line segment L1 vertical to the ground line by using the characteristic point A1;

s120: processing the second video information M2, the third video information M3 and the fourth video information M4 through the process of the second step to obtain a line segment L2, a line segment L3 and a line segment L4, and then measuring a line outgoing segment L1, a line segment L2, a line segment L3 and a line segment L4;

s130: the lengths of the line segment L1, the line segment L2, the line segment L3, and the line segment L4 are stacking height information G.

Further, the specific processing procedure of the position adjustment information is as follows: extracting the collected position information of the assembly body, marking the position information as a point Q1, extracting the position information and the lifting radius information of the lifting equipment, marking the position information of the lifting equipment as a point Q2, connecting the point Q1 with the point Q2 to obtain a line segment Qq, and measuring the length Q of the line segment Qq_{Long and long}Marking the hoisting radius information as Q_{Get up}Calculating the hoisting radius information Q_{Get up}And length Q_{Long and long}Difference between them, the length difference Q is obtained_{Difference (D)}When the length difference Q_{Difference (D)}When the value is less than 0, the position adjustment information is generated.

Further, the specific processing procedure of the environment management and control information is as follows: extracting noise information and dust concentration information from the collected environment information, wherein the noise information is noise decibel size, marking the noise decibel size as F, when the noise decibel size F is larger than a noise alarm value, extracting time point information T when the noise decibel size F is larger than the noise alarm value, when the time point information T is in a preset time period, sending environment control information, and when the specific content of the environment control information is 'construction for reducing noise when the noise is too large', extracting dust concentration information P, when the dust concentration information P is larger than a dust concentration threshold value, generating the environment control information, and when the specific content of the environment control information is 'dust concentration is too high', performing dust reduction operation.

Further, the specific process of acquiring the wire rope state information is as follows:

s200: when the state of the steel cable is detected by a magnetic detection method, broken wires, abrasion areas and corrosion areas inside and outside the steel cable can be obtained;

s210: the number of wire breaks inside and outside the wire rope obtained is marked as K1, the wear area obtained is marked as S1, the rust area obtained is marked as S2, and the number of the wire rope to be detected is marked as K_{General assembly}The total surface area of the steel cord to be detected is marked S_{General assembly}；

S220: by the formula (K1/K)_{General assembly})+(S1/S_{General assembly})+(S2/S_{General assembly})＝KS_Andto obtain a first state value KS_And；

s230: then the state of the steel cable is detected by a current method and the section information U of the detected steel cable is obtained_Break-offMarking the cross-sectional area of the detected steel rope as U_{Original source}；

S240: calculating section information U_Break-offCross-sectional area U of steel cable_{Original source}The ratio of (A) to (B) is obtained as the ratio of area to area Uu_{Ratio of}I.e. the second state value Uu_{Ratio of}；

S250: calculating a first state value KS_Andand a second state value Uu_{Ratio of}To obtain Ks and to obtain the final state value Ku_Andi.e. wire rope status information.

Further, the specific process of processing the wire rope state information to generate the wire rope replacement information is as follows: and extracting the acquired steel cable state information, and generating steel cable replacement information when the steel cable state information is larger than a preset value.

Further, the foundation pit state information comprises the water level height in the foundation pit and the perpendicularity of the pile body in the foundation pit, and the concrete process of processing the foundation pit state information to generate the foundation pit warning information is as follows: when the height of the water level in the foundation pit is larger than a preset value, foundation pit warning information is generated, at the moment, the concrete content of the foundation pit warning information is that 'accumulated water in the foundation pit is too deep', drainage processing is required ', the perpendicularity of the pile bodies is perpendicularity information of at least x pile bodies which is randomly acquired, when the number of the pile bodies which deviate from the preset perpendicularity among the perpendicularity information of the x pile bodies is larger than the preset number, the foundation pit warning information is generated, at the moment, the concrete content of the foundation pit warning information is that' the pile bodies are seriously inclined ', pile body perpendicularity adjustment is required', the total number of the pile bodies is marked as E, and x is larger than or equal to 4/E.

Further, the specific process of acquiring the quality information of the assembly body is as follows: randomly selecting m assemblies, carrying out intensity detection on the assemblies to obtain m intensity detection results, calculating the average value of the m intensity detection results to obtain an intensity average value H_{Are all made of}I.e. the quality information H of the ready-to-load ligand_{Are all made of}And m is a preset value.

Further, the assembly quality warning information is specifically processed as follows: when the quality information of the assembly body is smaller than the preset value, the quality warning information of the assembly body is generated.

The technical scheme provided in the embodiment of the application at least has the following technical effects or advantages:

the invention realizes more comprehensive monitoring and processing of the construction quality of the fabricated building by monitoring and processing a plurality of different information in the construction of the fabricated building, effectively solves the problems that the construction quality of the fabricated building is poor and the fabricated building cannot be effectively improved due to single type of monitoring information in the prior art, thereby realizing more comprehensive monitoring, effectively improving the quality of the assembly type building construction, reducing accidents caused by overhigh accumulation of assembling bodies in the assembly type building construction process, and avoided the assembly body too far away from hoisting device, the damage of the assembly body that the secondary hoist and mount in-process meets accident and leads to can also effectual reduction lead to the assembly body in the unexpected emergence that hoist and mount in-process cable fracture leads to because the cable wire of hoist and mount assembly body ages to through the great quality of promotion assembly type building construction of this system.

Drawings

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

FIG. 2 is a flowchart of cable status information acquisition in an embodiment of the present application;

fig. 3 is a flowchart of the second measurement step in the embodiment of the present application.

Detailed Description

The embodiment of the application provides an assembly type building construction quality safety management monitoring system, solves the problems that the type of monitoring information in the prior art is single, the construction quality of the assembly type building is poor, and the construction quality cannot be effectively improved, and achieves the purposes of improving the construction quality of the assembly type building and ensuring the construction safety of the assembly type building.

In order to better understand the technical solution, the technical solution will be described in detail with reference to the drawings and the specific embodiments.

As shown in fig. 1 to 3, an embodiment of the present application provides an assembly type building construction quality safety management monitoring system, which includes an image acquisition module, configured to acquire stacked image information of an assembly body, and obtain a stacking height of the assembly body by analyzing the stacked image; the assembly body information acquisition module is used for acquiring position information of the assembly body, and the distance between the assembly body and the hoisting device can be known by acquiring the position information of the assembly body, so that the placement position of the assembly body can be within the hoisting radius of the hoisting device; the environment monitoring module is used for acquiring the construction environment information of the assembly type building, wherein the environment information comprises noise information and dust concentration information, and whether the phenomena of overlarge noise and overlarge dust exist in the construction process can be known by acquiring the construction environment information of the assembly type building; the hoisting steel cable monitoring module is used for monitoring the steel cable state of the hoisting assembly part, acquiring steel cable state information, monitoring the hoisting steel cable and acquiring the steel cable state information, so that the actual state of the steel cable can be known, and accidents caused by steel cable aging are avoided; the quality monitoring module is used for carrying out quality detection on the assembly body of the assembly type building to obtain the quality information of the assembly body, and the quality of the assembly body is ensured by detecting the strength of the assembly body through the quality monitoring module, so that accidents caused by low quality of the assembly body are reduced; the foundation pit monitoring module is used for monitoring the foundation pit used for the assembly type building construction to obtain the state information of the foundation pit, the foundation pit state information of the foundation pit used for the assembly type building construction can be obtained through the arranged foundation pit monitoring module, the actual state in the foundation pit can be known through the foundation pit state information, and accidents caused by abnormal state of the foundation pit are reduced; the data receiving module is used for receiving stacking image information of the assembly body, position information of the assembly body, construction environment information, steel cable state information, assembly body quality information and foundation pit state information and sending the information to the data processing module; the data processing module is used for processing stacking image information of the assembly body, position information of the assembly body, construction environment information, steel cable state information, assembly body quality information and foundation pit state information;

stack image information to the assembly body and handle, generate and stack warning information, stack warning information's specific handling process as follows: stack image information to the assembly body handles, obtains the stacking height information G of different angles, when arbitrary one in stacking height information G is greater than predetermineeing the height value, produces and stacks warning information promptly.

The specific processing procedure for processing the stacking image information of the assembly body to obtain the stacking height information G is as follows:

s100: extracting stacked image information of the assembly body, wherein the stacked image information of the assembly body comprises first image information and second image information which are collected from the front end and the rear end of the assembly body, and third image information and fourth image information which are collected from the two sides of the assembly body;

s110: marking the first image information as M1, the second image information as M2, the third image information as M3 and the fourth image information as M4, marking characteristic points from the first image information M1 to obtain a characteristic point A1, and making a line segment L1 vertical to the ground line by using the characteristic point A1;

s120: processing the second video information M2, the third video information M3 and the fourth video information M4 through the process of the second step to obtain a line segment L2, a line segment L3 and a line segment L4, and then measuring a line outgoing segment L1, a line segment L2, a line segment L3 and a line segment L4;

s130: the lengths of the line segment L1, the line segment L2, the line segment L3, and the line segment L4 are stacking height information G.

Through the process, the acquisition of more accurate assembly body stacking height information is realized, so that more accurate assessment of the assembly body stacking height is carried out, when the assembly body stacking height is too high, warning information is timely sent out, and the problem that the assembly body collapses and is damaged due to unstable placement caused by the fact that the assembly body stacking height is too high is avoided.

Processing the position information of the assembly body to generate position adjustment information; the specific processing procedure of the position adjustment information is as follows: extracting the collected position information of the assembly body, marking the position information as a point Q1, extracting the position information and the lifting radius information of the lifting equipment, marking the position information of the lifting equipment as a point Q2, connecting the point Q1 with the point Q2 to obtain a line segment Qq, and measuring the length Q of the line segment Qq_{Long and long}Marking the hoisting radius information as Q_{Get up}Calculating the hoisting radius information Q_{Get up}And length Q_{Long and long}Difference between them, the length difference Q is obtained_{Difference (D)}When the length difference Q_{Difference (D)}When the value is less than 0, the position adjustment information is generated.

Whether the position of the assembly body is processed in the hoisting radius of the hoisting device or not is detected, when the position of the assembly body is not found in the hoisting radius of the hoisting device, warning information is timely sent out to prompt a manager to shift the assembly body, so that the hoisting time of the follow-up assembly body is shortened, the accident caused by shifting the assembly body is avoided when the assembly body needs to be hoisted, the hoisting safety is ensured, and the damage to the assembly body caused by the emergency shifting of the assembly body is reduced.

The construction environment information is processed to generate environment control information, and the specific processing process of the environment control information is as follows: extracting noise information and dust concentration information from the collected environment information, wherein the noise information is noise decibel size, marking the noise decibel size as F, when the noise decibel size F is larger than a noise alarm value, extracting time point information T when the noise decibel size F is larger than the noise alarm value, when the time point information T is in a preset time period, sending environment control information, and when the specific content of the environment control information is 'construction for reducing noise when the noise is too large', extracting dust concentration information P, when the dust concentration information P is larger than a dust concentration threshold value, generating the environment control information, and when the specific content of the environment control information is 'dust concentration is too high', performing dust reduction operation.

Through handling construction environment information, generate environment management and control information and can effectually reduce the situation emergence of disturbing residents that the too big noise of assembly type structure construction caused, also reduced the environmental pollution that too much dust produced when the assembly type structure is under construction caused.

The steel cable state information is processed to generate steel cable replacement information, and the steel cable state information is obtained in the following specific process:

s200: when the state of the steel cable is detected by a magnetic detection method, broken wires, abrasion areas and corrosion areas inside and outside the steel cable can be obtained;

s210: the number of wire breaks inside and outside the wire rope obtained is marked as K1, the wear area obtained is marked as S1, the rust area obtained is marked as S2, and the number of the wire rope to be detected is marked as K_{General assembly}The total surface area of the steel cord to be detected is marked S_{General assembly}；

S220: by the formula (K1/K)_{General assembly})+(S1/S_{General assembly})+(S2/S_{General assembly})＝KS_Andto obtain a first state value KS_And；

s230: then the state of the steel cable is detected by a current method and the section information U of the detected steel cable is obtained_Break-offMarking the cross-sectional area of the detected steel rope as U_{Original source}；

S240: calculating section information U_Break-offCross-sectional area U of steel cable_{Original source}The ratio of (A) to (B) is obtained as the ratio of area to area Uu_{Ratio of}I.e. the second state value Uu_{Ratio of}；

S250: calculating a first state value KS_Andand a second state value Uu_{Ratio of}To obtain Ks andthe final state value Ku is obtained_Andi.e. wire rope status information;

the specific process of processing the steel rope state information to generate the steel rope replacement information is as follows: and extracting the acquired steel cable state information, and generating steel cable replacement information when the steel cable state information is larger than a preset value.

Through the state that detects the hoist and mount cable wire, can know whether the hoist and mount cable wire takes place ageing to when discovering the hoist and mount cable wire anomaly, timely warning information suggestion of sending is changed the hoist and mount cable wire, avoids the hoist and mount accident that the hoist and mount cable wire leads to unusually, and the degree of accuracy that detects has been guaranteed in the setting of multiple detecting means.

Processing the assembly quality information to generate assembly quality warning information, wherein the specific process of acquiring the assembly quality information is as follows: randomly selecting m assemblies, carrying out intensity detection on the assemblies to obtain m intensity detection results, calculating the average value of the m intensity detection results to obtain an intensity average value H_{Are all made of}I.e. the quality information H of the ready-to-load ligand_{Are all made of}And m is a preset value.

The assembly body quality warning information is specifically processed as follows: when the quality information of the assembly body is smaller than a preset value, warning information of the quality of the assembly body is generated;

processing foundation pit state information to generate foundation pit warning information, wherein the foundation pit state information comprises the water level height in a foundation pit and the perpendicularity of a pile body in the foundation pit, and the concrete process of processing the foundation pit state information to generate the foundation pit warning information is as follows: when the height of the water level in the foundation pit is larger than a preset value, foundation pit warning information is generated, at the moment, the concrete content of the foundation pit warning information is that ' accumulated water in the foundation pit is too deep ', drainage processing is required to be carried out ', the perpendicularity of the pile body is perpendicularity information of at least x pile bodies which is randomly acquired, when the number of the pile bodies which deviate from the preset perpendicularity among the perpendicularity information of the x pile bodies is larger than a preset number, foundation pit warning information is generated, at the moment, the concrete content of the foundation pit warning information is that ' the pile bodies are seriously inclined, pile body perpendicularity adjustment is required to be carried out ', the total number of the pile bodies is marked as E, and x is larger than or equal to 4/E.

Through the state in the monitoring foundation ditch, when unusual in the foundation ditch, timely warning information that sends avoids the unexpected emergence that ponding is too much and pile body slope leads to in the foundation ditch to promote construction quality.

After the stack warning information, the position adjustment information, the environment control information, the steel cable replacement information, the assembly body quality warning information and the foundation pit warning information are generated, the main control module controls the information sending module to send the stack warning information, the position adjustment information, the environment control information, the steel cable replacement information, the assembly body quality warning information and the foundation pit warning information to a preset receiving terminal.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create a system for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only for the preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can substitute or change the technical solution and its concept of the present application within the technical scope disclosed in the present application, and shall be covered by the scope of the present application.

Claims (10)

1. The utility model provides an assembly type building construction quality safety control monitored control system which characterized in that includes:

the image acquisition module is used for acquiring stacked image information of the assembly body;

the assembly body information acquisition module is used for acquiring the position information of the assembly body;

the environment monitoring module is used for acquiring the construction environment information of the fabricated building, and the environment information comprises noise information and dust concentration information;

the hoisting steel cable monitoring module is used for monitoring the steel cable state of the hoisting assembly part to acquire steel cable state information;

the quality monitoring module is used for carrying out quality detection on an assembly body of the assembly type building to obtain the quality information of the assembly body;

the foundation pit monitoring module is used for monitoring a foundation pit used for the assembly type building construction to obtain foundation pit state information;

the data receiving module is used for receiving stacking image information of the assembly body, position information of the assembly body, construction environment information, steel cable state information, assembly body quality information and foundation pit state information and sending the information to the data processing module;

the data processing module is used for processing stacking image information of the assembly body, position information of the assembly body, construction environment information, steel cable state information, assembly body quality information and foundation pit state information, processing the stacking image information of the assembly body to generate stacking warning information, processing the position information of the assembly body to generate position adjusting information, processing the construction environment information to generate environment control information, processing the steel cable state information to generate steel cable replacement information, processing the assembly body quality information to generate assembly body quality warning information, and processing the foundation pit state information to generate foundation pit warning information;

after the stack warning information, the position adjustment information, the environment control information, the steel cable replacement information, the assembly body quality warning information and the foundation pit warning information are generated, the main control module controls the information sending module to send the stack warning information, the position adjustment information, the environment control information, the steel cable replacement information, the assembly body quality warning information and the foundation pit warning information to a preset receiving terminal.

2. The assembly type building construction quality safety management and monitoring system according to claim 1, characterized in that: the specific processing process of the stacking warning information is as follows: stack image information to the assembly body handles, obtains the stacking height information G of different angles, when arbitrary one in stacking height information G is greater than predetermineeing the height value, produces and stacks warning information promptly.

3. The assembly type building construction quality safety management monitoring system according to claim 2, characterized in that: the specific processing procedure for processing the stacking image information of the assembly body to obtain the stacking height information G is as follows:

s100: extracting stacked image information of the assembly body, wherein the stacked image information of the assembly body comprises first image information and second image information which are collected from the front end and the rear end of the assembly body, and third image information and fourth image information which are collected from the two sides of the assembly body;

s110: marking the first image information as M1, the second image information as M2, the third image information as M3 and the fourth image information as M4, marking characteristic points from the first image information M1 to obtain a characteristic point A1, and making a line segment L1 vertical to the ground line by using the characteristic point A1;

s120: processing the second video information M2, the third video information M3 and the fourth video information M4 through the process of the second step to obtain a line segment L2, a line segment L3 and a line segment L4, and then measuring a line outgoing segment L1, a line segment L2, a line segment L3 and a line segment L4;

s130: the lengths of the line segment L1, the line segment L2, the line segment L3, and the line segment L4 are stacking height information G.

4. An article of clothing as claimed in claim 1Join in marriage formula building construction quality safety control monitored control system, its characterized in that: the specific processing procedure of the position adjustment information is as follows: extracting the collected position information of the assembly body, marking the position information as a point Q1, extracting the position information and the lifting radius information of the lifting equipment, marking the position information of the lifting equipment as a point Q2, connecting the point Q1 with the point Q2 to obtain a line segment Qq, and measuring the length Q of the line segment Qq_{Long and long}Marking the hoisting radius information as Q_{Get up}Calculating the hoisting radius information Q_{Get up}And length Q_{Long and long}Difference between them, the length difference Q is obtained_{Difference (D)}When the length difference Q_{Difference (D)}When the value is less than 0, the position adjustment information is generated.

5. The assembly type building construction quality safety management and monitoring system according to claim 1, characterized in that: the specific processing procedure of the environment management and control information is as follows: extracting noise information and dust concentration information from the collected environment information, wherein the noise information is noise decibel size, marking the noise decibel size as F, when the noise decibel size F is larger than a noise alarm value, extracting time point information T when the noise decibel size F is larger than the noise alarm value, when the time point information T is in a preset time period, sending environment control information, and when the specific content of the environment control information is 'construction for reducing noise when the noise is too large', extracting dust concentration information P, when the dust concentration information P is larger than a dust concentration threshold value, generating the environment control information, and when the specific content of the environment control information is 'dust concentration is too high', performing dust reduction operation.

6. The assembly type building construction quality safety management and monitoring system according to claim 1, characterized in that: the specific process of acquiring the steel cable state information is as follows:

s200: when the state of the steel cable is detected by a magnetic detection method, broken wires, abrasion areas and corrosion areas inside and outside the steel cable can be obtained;

s210: the number of wire breaks inside and outside the obtained steel cord is marked as K1, the wear area obtained is marked as S1, and the rusted surface is obtainedThe product is labeled S2, and the number of detected ropes is labeled K_{General assembly}The total surface area of the steel cord to be detected is marked S_{General assembly}；

S220: by the formula (K1/K)_{General assembly})+(S1/S_{General assembly})+(S2/S_{General assembly})＝KS_Andto obtain a first state value KS_And；

s230: then the state of the steel cable is detected by a current method and the section information U of the detected steel cable is obtained_Break-offMarking the cross-sectional area of the detected steel rope as U_{Original source}；

S240: calculating section information U_Break-offCross-sectional area U of steel cable_{Original source}The ratio of (A) to (B) is obtained as the ratio of area to area Uu_{Ratio of}I.e. the second state value Uu_{Ratio of}；

S250: calculating a first state value KS_Andand a second state value Uu_{Ratio of}To obtain Ks and to obtain the final state value Ku_Andi.e. wire rope status information.

7. The assembly type building construction quality safety management and monitoring system according to claim 1, characterized in that: the specific process of processing the steel cable state information to generate the steel cable replacement information is as follows: and extracting the acquired steel cable state information, and generating steel cable replacement information when the steel cable state information is larger than a preset value.

8. The assembly type building construction quality safety management and monitoring system according to claim 1, characterized in that: the foundation pit state information comprises the water level height in the foundation pit and the perpendicularity of a pile body in the foundation pit, and the concrete process of processing the foundation pit state information to generate foundation pit warning information is as follows: when the height of the water level in the foundation pit is larger than a preset value, foundation pit warning information is generated, at the moment, the concrete content of the foundation pit warning information is that 'accumulated water in the foundation pit is too deep', drainage processing is required ', the perpendicularity of the pile bodies is perpendicularity information of at least x pile bodies which is randomly acquired, when the number of the pile bodies which deviate from the preset perpendicularity among the perpendicularity information of the x pile bodies is larger than the preset number, the foundation pit warning information is generated, at the moment, the concrete content of the foundation pit warning information is that' the pile bodies are seriously inclined ', pile body perpendicularity adjustment is required', the total number of the pile bodies is marked as E, and x is larger than or equal to 4/E.

9. The assembly type building construction quality safety management and monitoring system according to claim 1, characterized in that: the specific process of acquiring the quality information of the assembly body is as follows: randomly selecting m assemblies, carrying out intensity detection on the assemblies to obtain m intensity detection results, calculating the average value of the m intensity detection results to obtain an intensity average value H_{Are all made of}I.e. the quality information H of the ready-to-load ligand_{Are all made of}And m is a preset value.

10. The assembly type building construction quality safety management and monitoring system according to claim 1, characterized in that: the assembly body quality warning information is specifically processed as follows: when the quality information of the assembly body is smaller than the preset value, the quality warning information of the assembly body is generated.

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