CN115984041A - Decoration construction inspection system based on data analysis - Google Patents

Abstract

The invention belongs to the technical field of construction inspection, and particularly relates to a decoration construction inspection system based on data analysis, which comprises a server, a data storage module, a decoration environment monitoring module, a construction progress analysis module, a construction stage evaluation module and a decoration report generation module, wherein the server is in communication connection with a supervision terminal of a site supervisor and a client terminal of a corresponding client; the decoration construction environment monitoring and analyzing system carries out environment monitoring and analysis on decoration construction environments through the decoration environment monitoring module, the construction progress analyzing module carries out construction progress analysis on current decoration construction stages, the construction stage evaluating module carries out stage evaluation and analysis on corresponding decoration construction stages, the decoration report generating module carries out overall construction feedback analysis, and the stage progress analysis, the environment detection and analysis, the stage evaluation and analysis and the decoration overall construction feedback analysis are combined to achieve effective inspection on decoration construction.

Description

Decoration construction inspection system based on data analysis

Technical Field

The invention relates to the technical field of construction inspection, in particular to a decoration construction inspection system based on data analysis.

Background

Decoration is also called decoration or decoration, and is carried out in a certain area and range, including transformation of hydropower construction, wall, floor, ceiling, landscape and the like, the decoration is carried out on living goods or living environment, the aesthetic effect is enhanced and the function is improved, the environment protection is taken as a design concept, the perfect decoration is closely combined with the function of an object, the manufacturing process is adapted, the performance of a material is exerted, and the good artistic effect is achieved;

at present, in the decoration construction process, the decoration condition is mainly observed and judged manually, effective monitoring and feedback of each stage of the decoration construction process are difficult to realize, accurate detection and risk early warning of the decoration construction environment are difficult to carry out, stage progress analysis, environment detection analysis, stage evaluation analysis and decoration overall construction feedback analysis cannot be combined, and the decoration construction inspection effect is difficult to be obviously improved;

in view of the above technical drawbacks, a solution is proposed.

Disclosure of Invention

The invention aims to provide a decoration construction monitoring system based on data analysis, and solves the problems that effective monitoring and feedback of each stage of a decoration construction process are difficult to realize, accurate detection and risk early warning of a decoration construction environment are difficult to carry out, and stage progress analysis, environment detection analysis, stage evaluation analysis and decoration overall construction feedback analysis cannot be combined in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a decoration construction monitoring system based on data analysis comprises a server, a data storage module, a decoration environment monitoring module, a construction progress analysis module, a construction stage evaluation module and a decoration report generation module, wherein the server is in communication connection with a supervision terminal of a site supervisor and a client terminal of a corresponding client; the decoration environment monitoring module is used for carrying out environment monitoring analysis on a decoration construction environment in the decoration construction process, generating an environment high-risk signal, an environment in-risk signal or an environment low-risk signal and transmitting the environment high-risk signal, the environment in-risk signal or the environment low-risk signal to a supervision terminal of a field supervision person through the server; the construction progress analysis module is used for analyzing the construction progress of the current decoration construction stage in the decoration construction process, generating a progress qualified signal or a progress unqualified signal and transmitting the progress qualified signal or the progress unqualified signal to a supervision terminal of an on-site supervision person and a client terminal of a corresponding client through the server;

the construction stage evaluation module is used for carrying out stage evaluation analysis on the corresponding decoration construction stage after the current decoration construction stage is finished and generating a stage qualified signal or a stage unqualified signal, and sending the stage qualified signal or the stage unqualified signal to a supervision terminal of an on-site supervision staff and a client terminal of a corresponding client through the server; and the decoration report generating module is used for performing overall construction feedback analysis when decoration construction is completed, generating a completion qualified report or a completion unqualified report, and transmitting the completion qualified report or the completion unqualified report to a supervision terminal of a field supervisor and a client terminal of a corresponding client through the server.

Further, the environmental monitoring analysis process of the decoration environmental monitoring module comprises:

acquiring environmental information of a decoration construction environment in real time in a decoration construction process, wherein the environmental information comprises a polluted gas concentration value, a noise feedback value and a dust expression value of the decoration construction environment, and performing numerical calculation on the polluted gas concentration value, the noise feedback value and the dust expression value to acquire an environment measured value; the method comprises the steps of calling a preset environment actual measurement range through a data storage module, carrying out numerical value comparison on an environment actual measurement value and the preset environment actual measurement range, generating an environment high-risk signal if the environment actual measurement value is larger than or equal to the maximum value of the preset environment actual measurement range, generating an environment middle-risk signal if the environment actual measurement value is located in the preset environment actual measurement range, and generating an environment low-risk signal if the environment actual measurement value is smaller than or equal to the minimum value of the preset environment actual measurement range.

Furthermore, the noise feedback value is a data quantity value used for representing the noise intensity in the decoration construction environment, and the dust representation value is a data quantity value used for representing the dust concentration in the decoration construction environment; the concentration of the polluted gas is a data value used for representing the concentration of harmful gas in the decoration construction environment, and the analysis and acquisition method of the concentration of the polluted gas comprises the following steps:

calling the type of the hazardous gas to be monitored through a data storage module, and marking the hazardous gas to be monitored as an analysis gas u, u = {1,2, ..., j }, wherein j represents the quantity of the hazardous gas to be monitored and j is a positive integer greater than 1; the concentration of the analysis gas u in the decoration construction environment is obtained and marked as an analysis gas concentration value, a preset weight coefficient corresponding to the analysis gas u is called through a data storage module, and the analysis gas concentration value of the analysis gas u is multiplied by the corresponding preset weight coefficient to obtain an analysis gas table value; and establishing a gas surface value set for all the analysis gas surface values, and summing the gas surface value set to obtain the concentration value of the polluted gas.

Further, the server is in communication connection with a decoration planning marking module, the decoration planning marking module is used for obtaining a decoration construction planning scheme, dividing a plurality of decoration construction stages based on the decoration construction planning scheme, and marking the decoration construction stages as analysis objects i, i = {1,2, \8230, n }, wherein n represents the number of the decoration construction stages and is a positive integer greater than 1; the decoration items contained in the analysis object i are acquired, the decoration items contained in the analysis object i are marked as k, k = {1,2, 8230, m, wherein m represents the number of decoration projects contained in a corresponding decoration construction stage and is a positive integer greater than 1; and sending the analysis object i and the corresponding decoration item k to a server.

Further, the construction progress analysis process of the construction progress analysis module comprises:

acquiring a current decoration construction stage, acquiring a decoration project k contained in a corresponding analysis object i based on the current decoration construction, acquiring the current constructed time length of the corresponding analysis object i, calling a preset completion time length through a data storage module, comparing the current constructed time length with the preset completion time length, and generating a progress unqualified signal if the current constructed time length is greater than or equal to the preset completion time length; if the current constructed time length is less than the preset completion time length, calculating the difference between the preset completion time length and the current constructed time length to obtain a construction expiration value;

acquiring progress data of a decoration project k contained in a corresponding analysis object i, removing the finished decoration project k, and marking the unfinished decoration project k in the corresponding analysis object i as an analysis project; acquiring the working hour predicted value GCik of the corresponding analysis project through analysis, establishing a predicted value set for the working hour predicted values GCik of all the analysis projects, and summing the predicted value set to acquire a total time predicted value; and comparing the total time predicted value with the construction due value, if the total time predicted value is less than or equal to the construction due value, generating a progress qualified signal, and if the total time predicted value is greater than the construction due value, generating a progress unqualified signal.

Further, the method for analyzing and obtaining the predicted value GCik of the working hours is as follows:

acquiring project progress values XJik of all analysis projects, wherein the project progress values XJik represent the percentage of a finished part in a corresponding analysis project to the whole part of the project, calling a preset occupation time length YZik of the corresponding analysis project through a data storage module, and analyzing and calculating through a formula GCik = (1-XJik) × YZik to acquire a working hour predicted value GCik.

Further, the stage evaluation analysis process of the construction stage evaluation module comprises:

acquiring the actual completion time length of the corresponding analysis object i when the current decoration construction stage is completed, carrying out numerical comparison on the actual completion time length and the preset completion time length of the corresponding analysis object i, judging that the decoration construction stage to which the corresponding analysis object i belongs is unqualified if the actual completion time length is greater than the preset completion time length, and judging that the decoration construction stage to which the corresponding analysis object i belongs is qualified if the actual completion time length is less than or equal to the preset completion time length;

acquiring a construction cost value and a material waste value of a corresponding analysis object i in a decoration construction process, wherein the construction cost value is a data quantity value representing the total amount of money consumed in a corresponding decoration construction stage, and the material waste value is a data quantity value representing the amount of money of a waste material caused by misoperation in the corresponding decoration construction stage; carrying out numerical calculation on the construction cost value and the material waste value to obtain a stage representation value;

calling a preset stage performance threshold value corresponding to the analysis object i through a data storage module, comparing the stage performance value with the preset stage performance threshold value, if the stage performance value is greater than or equal to the preset stage performance threshold value, judging that the decoration construction stage corresponding to the analysis object i is unqualified in construction, and if the stage performance value is smaller than the preset stage performance threshold value, judging that the decoration construction stage corresponding to the analysis object i is qualified in construction; and when the working hours of the decoration construction stage to which the corresponding analysis object i belongs are judged to be qualified and the construction of the decoration construction stage is judged to be qualified, generating a stage qualified signal, and generating a stage unqualified signal under the other conditions.

Further, the specific operation process of the decoration report generation module includes:

acquiring a total cost value and a decoration time consumption value when decoration construction is finished, and carrying out numerical calculation on the total cost value and the decoration time consumption value to acquire a decoration representation value; calling all qualified decoration construction stages and all unqualified decoration construction stages through a data storage module, respectively marking the number of the qualified decoration construction stages and the number of the unqualified decoration construction stages as a qualified decoration value and an abnormal decoration value, and calculating the ratio of the abnormal decoration value to the qualified decoration value to obtain a stage representation value;

and calling a preset decoration performance threshold value and a preset stage performance threshold value through a data storage module, respectively carrying out numerical value comparison on the decoration performance value and the stage performance value with the preset decoration performance threshold value and the preset stage performance threshold value, if the decoration performance value and the stage performance value are less than or equal to the preset threshold values, generating a completion qualified report, and otherwise, generating a completion unqualified report.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the method, a decoration environment monitoring module is used for carrying out environment monitoring analysis on a decoration construction environment to generate an environment high-risk signal, an environment in-risk signal or an environment low-risk signal, so that effective monitoring on the decoration construction environment is realized, the body health of field personnel is ensured, the harm to nearby environment is reduced, a construction progress analysis module is used for carrying out construction progress analysis on a current decoration construction stage in a decoration construction process to generate a progress qualified signal or a progress unqualified signal, effective monitoring on the decoration progress corresponding to the decoration construction stage in the decoration construction process is realized, and field supervisors and corresponding clients are helped to timely and accurately know the construction progress condition and carry out adaptive adjustment in the follow-up process;

2. according to the invention, the construction phase evaluation module performs phase evaluation analysis on the corresponding decoration construction phase after the current decoration construction phase is finished and generates a phase qualified signal or a phase unqualified signal, the decoration report generation module performs overall construction feedback analysis when the decoration construction is completed and generates a completion qualified report or a completion unqualified report, and the phase progress analysis, the environment detection analysis, the phase evaluation analysis and the decoration overall construction feedback analysis are combined, so that the decoration construction is effectively monitored, the decoration construction monitoring effect is obviously improved, and the intelligent degree is high.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings;

FIG. 1 is an overall system block diagram of the present invention;

fig. 2 is a communication block diagram of a server, a supervision terminal and a client terminal in the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

as shown in fig. 1-2, the decoration construction inspection system based on data analysis provided by the invention comprises a server, a data storage module, a decoration environment monitoring module and a construction progress analysis module, wherein the server is in communication connection with the data storage module, the decoration environment monitoring module and the construction progress analysis module, and is in communication connection with a supervision terminal of a site supervisor and a client terminal of a corresponding client;

fitment environmental monitoring module carries out environmental monitoring analysis and generates environment high risk signal, risk signal or environment low risk signal in the environment to fitment construction environment in the fitment work progress, and the concrete operation process of fitment environmental monitoring module is as follows:

the method comprises the following steps that S1, environmental information of a decoration construction environment is obtained in real time in the decoration construction process, the environmental information comprises a pollution gas concentration value WN, a noise feedback value ZF and a dust expression value FB of the decoration construction environment, the noise feedback value ZF is a data quantity value used for expressing the noise intensity in the decoration construction environment, and the dust expression value FB is a data quantity value used for expressing the dust concentration in the decoration construction environment; the concentration of the polluted gas is a data quantity value used for representing the concentration of harmful gas in the decoration construction environment, and it should be noted that the larger the concentration of the polluted gas WN is, the larger the noise feedback value ZF is and the larger the dust expression value FB is, the larger the harm of the current decoration construction environment to field constructors and nearby environment is;

the method for analyzing and obtaining the WN of the polluted gas concentration comprises the following steps:

s11, calling the type of the hazardous gas to be monitored through a data storage module, and marking the hazardous gas to be monitored as an analysis gas u, u = {1,2, ..., j }, j representing the quantity of the hazardous gas to be monitored, wherein j is a positive integer greater than 1;

s12, obtaining the concentration of the analysis gas u in the decoration construction environment, marking the concentration as an analysis gas concentration value, calling preset weight coefficients corresponding to the analysis gas u through a data storage module, wherein the values of the preset weight coefficients are all larger than zero, the size of the preset weight coefficient corresponding to the analysis gas u is determined according to the degree of harm of the corresponding type of gas to human health and environment, and if the degree of harm of the corresponding type of gas to the human health and environment is larger, the numerical value of the corresponding preset weight coefficient is larger;

multiplying the analysis gas concentration value of the analysis gas u by a corresponding preset weight coefficient to obtain an analysis gas table value; establishing a gas surface value set for all the analysis gas surface values, summing the gas surface value set to obtain a sum value corresponding to the gas surface value set, and marking the sum value corresponding to the gas surface value set as a polluted gas concentration value WN;

s2, analyzing a formula through actual measurement of environment

Substituting the pollutant gas concentration value WN, the noise feedback value ZF and the dust expression value FB to perform numerical calculation, and obtaining an environment measured value HCz after numerical calculation;

wherein a1, a2 and a3 are preset proportionality coefficients, the values of a1, a2 and a3 are all larger than zero, and a1 is larger than a3 and larger than a2; it should be noted that the numerical value of the environmental actual measurement value HCz is in a direct proportion relationship with the polluted gas concentration value WN, the noise feedback value ZF and the dust expression value FB, and the smaller the polluted gas concentration value WN, the smaller the noise feedback value ZF and the smaller the dust expression value FB, the smaller the numerical value of the environmental actual measurement value HCz is, which indicates that the environmental condition of the current decoration construction environment is better, and the smaller the harm to the physical health of site constructors and the nearby environment is;

and S3, calling a preset environment actual measurement range through a data storage module, comparing the environment actual measurement value HCz with the preset environment actual measurement range, if the environment actual measurement value HCz is larger than or equal to the maximum value of the preset environment actual measurement range, judging that the current decoration construction environment condition is extremely poor and generating an environment high-risk signal, if the environment actual measurement value HCz is located in the preset environment actual measurement range, judging that the current decoration construction environment condition is general and generating an environment in-risk signal, and if the environment actual measurement value HCz is smaller than or equal to the minimum value of the preset environment actual measurement range, judging that the current decoration construction environment condition is good and generating an environment low-risk signal.

Carry out the environmental monitoring analysis and generate environment high risk signal, risk signal or environment low risk signal in the environment to fitment construction environment through fitment environment monitoring module, send environment high risk signal, environment in risk signal or environment low risk signal to on-the-spot supervisory personnel's supervision terminal through the server, realize the effective monitoring to fitment construction environment, on-the-spot supervisory personnel need not make any feedback when receiving environment low risk signal, when on-the-spot supervisory personnel receives risk signal in the environment, should remind on-the-spot constructor to make corresponding protection in order to play the guard action to the constructor, on-the-spot supervisory personnel receives environment high risk signal, should make corresponding measure in order to improve on-the-spot environment, and arrange constructor suspend the construction as required, further guaranteed on-the-spot personnel's healthy.

The server is in communication connection with the decoration planning marking module, the decoration planning marking module obtains a decoration construction planning scheme, a plurality of decoration construction stages are divided based on the decoration construction planning scheme, the decoration construction stages are marked as analysis objects i, i = {1,2, \8230, n }, n represents the number of the decoration construction stages, and n is a positive integer greater than 1; acquiring decoration projects contained in an analysis object i, and marking the decoration projects contained in the analysis object i as k, k = {1,2, ..., m }, wherein m represents the number of the decoration projects contained in a corresponding decoration construction stage and is a positive integer greater than 1; and sending the analysis object i and the corresponding decoration item k to a server.

The construction progress analysis module carries out construction progress analysis to the current decoration construction stage in the decoration construction process and generates a progress qualified signal or a progress unqualified signal, and the construction progress analysis process of the construction progress analysis module is as follows:

g1, acquiring a current decoration construction stage, acquiring a decoration project k contained in a corresponding analysis object i based on the current decoration construction, acquiring the current constructed time length of the corresponding analysis object i, and calling a preset completion time length through a data storage module;

g2, comparing the current constructed time length with a preset completion time length, and if the current constructed time length is greater than or equal to the preset completion time length, generating a progress unqualified signal; if the current constructed time length is less than the preset completion time length, calculating a difference value between the preset completion time length and the current constructed time length to obtain a construction arrival value, and carrying out next analysis;

g3, obtaining progress data of the decoration item k contained in the corresponding analysis object i, removing the finished decoration item k, and marking the unfinished decoration item k in the corresponding analysis object i as an analysis item; acquiring project progress values XJik of all analysis projects corresponding to an analysis object i, wherein the project progress values XJik represent the percentage of a finished part in a corresponding analysis project to the whole part of the project, and the larger the numerical value of the project progress values XJik is, the closer the corresponding analysis project is to be finished;

g4, calling the preset occupation time YZik of the corresponding analysis item through a data storage module, wherein the sum of the preset occupation time YZik of all decoration items k in the corresponding analysis object i is equal to the value of the preset completion time; analyzing and calculating by a formula GCik = (1-XJik) × YZik to obtain a working hour predicted value GCik; establishing a prediction value set for the man-hour prediction values GCik of all analysis projects, and summing the prediction value set to obtain a total time prediction value ZCik;

g5, comparing the total time predicted value with the construction due value, if the total time predicted value is less than or equal to the construction due value, judging that the difficulty of finishing all projects of the corresponding analysis object i in the remaining time is low, the decoration construction progress performance of the corresponding analysis object i is excellent, and generating a progress qualified signal; if the total predicted value is larger than the construction due value, judging that the difficulty of finishing all projects of the corresponding analysis object i in the remaining time is high, and generating a progress unqualified signal if the decoration construction progress of the corresponding analysis object i is poor.

The construction progress analysis module is used for analyzing the construction progress of the current decoration construction stage in the decoration construction process and generating a progress qualified signal or a progress unqualified signal, the progress qualified signal or the progress unqualified signal is sent to a supervision terminal of an on-site supervision person and a client terminal of a corresponding client through the server, effective monitoring of the decoration progress of the corresponding decoration construction stage in the decoration construction process is achieved, the on-site supervision person and the corresponding client can accurately know the construction progress in time, the on-site supervision person and the corresponding client do not need to make any feedback when receiving the progress qualified signal, the on-site supervision person and the corresponding client can supervise and urge the on-site supervision person to accelerate the construction efficiency of a task at the current stage when receiving the progress unqualified signal, and the on-site supervision person can strengthen supervision on the construction personnel or make corresponding measures to improve the decoration construction efficiency.

Example two:

as shown in fig. 1-2, the difference between this embodiment and embodiment 1 is that the server is in communication connection with the construction stage evaluation module, the construction stage evaluation module performs stage evaluation analysis on the corresponding decoration construction stage after the current decoration construction stage is finished, and generates a stage qualified signal or a stage unqualified signal, and the stage evaluation analysis process is as follows:

step D1, acquiring the actual completion time length of the corresponding analysis object i when the current decoration construction stage is completed, comparing the actual completion time length with the preset completion time length of the corresponding analysis object i, if the actual completion time length is larger than the preset completion time length, judging that the decoration construction stage to which the corresponding analysis object i belongs is unqualified in working time, and if the actual completion time length is smaller than or equal to the preset completion time length, judging that the decoration construction stage to which the corresponding analysis object i belongs is qualified in working time;

d2, acquiring a construction cost value and a material waste value of the corresponding analysis object i in the decoration construction process, and marking the construction cost value and the material waste value as SBi and CFi; the construction cost value SBi is a data quantity value representing the total amount consumed in the corresponding decoration construction stage, and comprises material cost, labor cost, water and electricity cost and the like; the material waste value CFi is a data quantity value which represents the amount of the waste materials caused by misoperation in the corresponding decoration construction stage, the more the materials which are damaged and incomplete and cannot be used in the construction operation are, the higher the price of the damaged and incomplete materials is, the larger the material waste value is;

calculating the numerical value by substituting the stage expression analysis formula JBz = b1 SBi + b2 CFi into the construction cost value SBi and the material waste value CFi, and obtaining the stage expression value JBz after numerical value calculation; wherein b1 and b2 are preset proportionality coefficients, the values of b1 and b2 are both greater than zero, and b1 is greater than b2; it should be noted that, the numerical value of the stage performance value JBz is in a direct proportion relationship with the construction cost value SBi and the material waste value CFi, and the larger the construction cost value SBi and the larger the material waste value CFi are, the larger the stage performance value JBz is, which indicates that the construction qualification of the corresponding decoration construction stage is lower;

d3, calling a preset stage performance threshold corresponding to the analysis object i through a data storage module, comparing a stage performance value JBz with the preset stage performance threshold, if the stage performance value JBz is greater than or equal to the preset stage performance threshold, judging that the decoration construction stage corresponding to the analysis object i is unqualified in construction, and if the stage performance value JBz is less than the preset stage performance threshold, judging that the decoration construction stage corresponding to the analysis object i is qualified in construction;

and D4, acquiring a working hour judgment result and a stage construction judgment result, if the working hour of the decoration construction stage to which the corresponding analysis object i belongs is judged to be qualified and the construction of the decoration construction stage is judged to be qualified, generating a stage qualified signal, and otherwise, generating a stage unqualified signal.

The construction stage evaluation module is used for carrying out stage evaluation analysis on the corresponding decoration construction stage after the current decoration construction stage is finished and generating a stage qualified signal or a stage unqualified signal, the stage qualified signal or the stage unqualified signal is sent to a supervision terminal of an on-site supervision person and a client terminal of a corresponding client through a server, the supervision terminal of the on-site supervision person and the client terminal of the corresponding client do not make corresponding feedback when receiving the stage qualified signal, the corresponding client can communicate with the on-site supervision person to inquire and supervise the on-site supervision person to strengthen supervision on the subsequent decoration construction stage when receiving the stage unqualified signal, and the on-site supervision person should make corresponding improvement measures and communicate with the on-site constructor to train in the subsequent decoration construction stage.

Example three:

as shown in fig. 1-2, the difference between this embodiment and embodiments 1 and 2 is that the server marks the corresponding decoration construction stage as a qualified decoration construction stage when receiving a stage qualified signal, marks the corresponding decoration construction stage as an unqualified decoration construction stage when receiving a stage unqualified signal, and stores the qualified decoration construction stage and the unqualified decoration construction stage in the data storage module; the server is in communication connection with the decoration report generation module, the decoration report generation module performs overall construction feedback analysis when decoration construction is completed and generates a completion qualified report or a completion unqualified report, and the overall construction feedback analysis has the following specific analysis process:

t1, acquiring a total cost value and a decoration time consumption value during decoration construction, respectively marking the total cost value and the decoration time consumption value as ZB and ZH, wherein the total cost value ZB is a data quantity value representing the total amount of money consumed by decoration construction, and the decoration time consumption value ZH is a data quantity value representing the actual total time consumed in the decoration construction process;

performing numerical calculation by using a decoration performance analysis formula XBz = tf1 ZB + tf2 ZH and substituting the total cost value ZB and a decoration power consumption value ZH, and obtaining a decoration performance value XBz after numerical calculation; wherein tf1 and tf2 are preset proportionality coefficients, the numerical values of tf1 and tf2 are both greater than zero, and tf1 is greater than tf2; it should be noted that the numerical value of the decoration performance value XBz is in a direct proportion relation with the total cost value ZB and the decoration time consumption value ZH, and the larger the total cost value ZB and the decoration time consumption value ZH are, the larger the decoration performance value XBz is, which indicates that the construction effect of decoration construction is worse;

step T2, calling all qualified decoration construction stages and unqualified decoration construction stages through a data storage module, respectively marking the number of the qualified decoration construction stages and the number of the unqualified decoration construction stages as a qualified decoration value HX and an abnormal decoration value YH, calculating the ratio of the abnormal decoration value YH to the qualified decoration value HX through a ratio formula BXz = YH/(HX + 0.872), and marking the ratio result of the two as a stage representation value BXz; it should be noted that the smaller the value of the stage expression value BXz is, the better the construction effect and efficiency of each construction stage in the decoration construction process are as a whole;

and T3, calling a preset decoration performance threshold value and a preset stage performance threshold value through the data storage module, respectively carrying out numerical comparison on the decoration performance value XBz and the stage performance value BXz and the preset decoration performance threshold value and the preset stage performance threshold value, if the decoration performance value XBz and the stage performance value BXz are both smaller than or equal to the preset threshold value, generating a completion qualified report, and otherwise, generating a completion unqualified report.

The decoration report generation module carries out overall construction feedback analysis when decoration construction is completed and generates a completion qualified report or a completion unqualified report, and the completion qualified report or the completion unqualified report is sent to a supervision terminal of a field supervision person and a client terminal of a corresponding client through the server, so that the integral evaluation and judgment of the decoration construction condition are realized, and the detailed and accurate understanding of the decoration integral condition by the corresponding supervision person of the supervision terminal and the corresponding client of the client terminal is facilitated.

The working principle of the invention is as follows: carry out the environmental monitoring analysis and generate the environment high risk signal to fitment construction environment through fitment environment monitoring module, risk signal or the environment low risk signal in the environment, realize the effective monitoring to fitment construction environment, carry out construction progress analysis and generate progress qualified signal or progress unqualified signal to current fitment construction phase in the fitment construction process through construction progress analysis module, realize the effective monitoring to the fitment progress that corresponds the fitment construction phase in the fitment construction process, construction phase evaluation module carries out the phase evaluation analysis and generates phase qualified signal or phase unqualified signal to corresponding fitment construction phase after current fitment construction phase finishes, fitment report generation module carries out overall construction feedback analysis and generates and completes the qualified report or completes the unqualified report when the fitment construction completes, phase progress analysis, environmental detection and analysis, phase evaluation and analysis and fitment overall construction feedback analysis combine together, realize the effective inspection to the fitment construction, show and promote the construction inspection effect, the intelligent degree is high.

The above formulas are all calculated by taking the numerical value of the dimension, the formula is a formula which obtains the latest real situation by acquiring a large amount of data and performing software simulation, and the preset parameters in the formula are set by the technical personnel in the field according to the actual situation.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (8)

1. A decoration construction inspection system based on data analysis is characterized by comprising a server, a data storage module, a decoration environment monitoring module, a construction progress analysis module, a construction stage evaluation module and a decoration report generation module, wherein the server is in communication connection with a supervision terminal of a site supervisor and a client terminal of a corresponding client; the decoration environment monitoring module is used for carrying out environment monitoring analysis on a decoration construction environment in the decoration construction process, generating an environment high-risk signal, an environment in-risk signal or an environment low-risk signal and transmitting the environment high-risk signal, the environment in-risk signal or the environment low-risk signal to a supervision terminal of a field supervision person through the server; the construction progress analysis module is used for carrying out construction progress analysis on the current decoration construction stage in the decoration construction process, generating a progress qualified signal or a progress unqualified signal and transmitting the progress qualified signal or the progress unqualified signal to a supervision terminal of an on-site supervision person and a client terminal of a corresponding client through the server;

the construction stage evaluation module is used for carrying out stage evaluation analysis on the corresponding decoration construction stage after the current decoration construction stage is finished and generating a stage qualified signal or a stage unqualified signal, and sending the stage qualified signal or the stage unqualified signal to a supervision terminal of an on-site supervision staff and a client terminal of a corresponding client through the server; and the decoration report generating module is used for performing overall construction feedback analysis when decoration construction is completed, generating a completion qualified report or a completion unqualified report, and transmitting the completion qualified report or the completion unqualified report to a supervision terminal of a field supervisor and a client terminal of a corresponding client through the server.

2. A finishing construction inspection system based on data analysis as claimed in claim 1, wherein the environment monitoring and analyzing process of the finishing environment monitoring module comprises:

acquiring environmental information of a decoration construction environment in real time in a decoration construction process, wherein the environmental information comprises a polluted gas concentration value, a noise feedback value and a dust expression value of the decoration construction environment, and performing numerical calculation on the polluted gas concentration value, the noise feedback value and the dust expression value to acquire an environment measured value; the method comprises the steps of calling a preset environment actual measurement range through a data storage module, carrying out numerical value comparison on an environment actual measurement value and the preset environment actual measurement range, generating an environment high-risk signal if the environment actual measurement value is larger than or equal to the maximum value of the preset environment actual measurement range, generating an environment middle-risk signal if the environment actual measurement value is located in the preset environment actual measurement range, and generating an environment low-risk signal if the environment actual measurement value is smaller than or equal to the minimum value of the preset environment actual measurement range.

3. A finishing work inspection system based on data analysis as claimed in claim 2, wherein the noise feedback value is a data amount value for indicating the magnitude of the noise intensity in the finishing work environment, and the dust representation value is a data amount value for indicating the magnitude of the dust concentration in the finishing work environment; the concentration of the polluted gas is a data value used for representing the concentration of harmful gas in the decoration construction environment, and the analysis and acquisition method of the concentration of the polluted gas comprises the following steps:

calling the type of the hazardous gas to be monitored through a data storage module, and marking the hazardous gas to be monitored as an analysis gas u, u = {1,2, ..., j }, j represents the quantity of the hazardous gas to be monitored, and j is a positive integer greater than 1; the concentration of the analysis gas u in the decoration construction environment is obtained and marked as an analysis gas concentration value, a preset weight coefficient corresponding to the analysis gas u is called through a data storage module, and the analysis gas concentration value of the analysis gas u is multiplied by the corresponding preset weight coefficient to obtain an analysis gas table value; and establishing a gas surface value set for all the analysis gas surface values, and summing the gas surface value set to obtain the concentration value of the polluted gas.

4. The decoration construction inspection system based on data analysis of claim 1, wherein the server is in communication connection with a decoration planning marking module, the decoration planning marking module is used for obtaining a decoration construction planning scheme, dividing a plurality of decoration construction stages based on the decoration construction planning scheme, and marking the decoration construction stages as analysis objects i, i = {1,2, ..., n }, wherein n represents the number of decoration construction stages and n is a positive integer greater than 1; acquiring decoration projects contained in an analysis object i, and marking the decoration projects contained in the analysis object i as k, k = {1,2, ..., m }, wherein m represents the number of the decoration projects contained in a corresponding decoration construction stage and is a positive integer greater than 1; and sending the analysis object i and the corresponding decoration item k to a server.

5. A finishing construction inspection system based on data analysis according to claim 1, wherein the construction progress analysis process of the construction progress analysis module comprises:

acquiring a current decoration construction stage, acquiring a decoration project k contained in a corresponding analysis object i based on the current decoration construction, acquiring the current constructed time length of the corresponding analysis object i, calling a preset completion time length through a data storage module, comparing the current constructed time length with the preset completion time length, and generating a progress unqualified signal if the current constructed time length is greater than or equal to the preset completion time length; if the current constructed time length is less than the preset completion time length, calculating the difference between the preset completion time length and the current constructed time length to obtain a construction expiration value;

acquiring progress data of a decoration project k contained in a corresponding analysis object i, removing the finished decoration project k, and marking the unfinished decoration project k in the corresponding analysis object i as an analysis project; acquiring the labor hour predicted value GCik of a corresponding analysis project through analysis, establishing a predicted value set for the labor hour predicted values GCik of all the analysis projects, and summing the predicted value set to acquire a total time predicted value; and comparing the total time predicted value with the construction due value, if the total time predicted value is less than or equal to the construction due value, generating a progress qualified signal, and if the total time predicted value is greater than the construction due value, generating a progress unqualified signal.

6. A decoration construction inspection system based on data analysis as claimed in claim 5, wherein the analysis obtaining method of the predicted man-hour value GCik is as follows:

acquiring project progress values XJik of all analysis projects, wherein the project progress values XJik represent the percentage of a finished part in a corresponding analysis project to the whole part of the project, calling a preset occupation time length YZik of the corresponding analysis project through a data storage module, and analyzing and calculating through a formula GCik = (1-XJik) × YZik to acquire a working hour predicted value GCik.

7. A finishing construction inspection system based on data analysis as claimed in claim 1, wherein the stage evaluation analysis process of the construction stage evaluation module comprises:

acquiring the actual completion time length of the corresponding analysis object i when the current decoration construction stage is completed, carrying out numerical comparison on the actual completion time length and the preset completion time length of the corresponding analysis object i, judging that the decoration construction stage to which the corresponding analysis object i belongs is unqualified if the actual completion time length is greater than the preset completion time length, and judging that the decoration construction stage to which the corresponding analysis object i belongs is qualified if the actual completion time length is less than or equal to the preset completion time length;

acquiring a construction cost value and a material waste value of a corresponding analysis object i in a decoration construction process, wherein the construction cost value is a data quantity value representing the total amount of money consumed in a corresponding decoration construction stage, and the material waste value is a data quantity value representing the amount of money of materials wasted due to misoperation in the corresponding decoration construction stage; carrying out numerical calculation on the construction cost value and the material waste value to obtain a stage representation value;

calling a preset stage performance threshold value corresponding to the analysis object i through a data storage module, comparing the stage performance value with the preset stage performance threshold value, if the stage performance value is greater than or equal to the preset stage performance threshold value, judging that the decoration construction stage corresponding to the analysis object i is unqualified in construction, and if the stage performance value is smaller than the preset stage performance threshold value, judging that the decoration construction stage corresponding to the analysis object i is qualified in construction; and when the working hours of the decoration construction stage to which the corresponding analysis object i belongs are judged to be qualified and the construction of the decoration construction stage is judged to be qualified, generating a stage qualified signal, and generating a stage unqualified signal under the other conditions.

8. A finishing construction inspection system based on data analysis as claimed in claim 1, wherein the specific operation process of the finishing report generation module includes:

acquiring a total cost value and a decoration time consumption value when decoration construction is finished, and carrying out numerical calculation on the total cost value and the decoration time consumption value to acquire a decoration representation value; calling all qualified decoration construction stages and all unqualified decoration construction stages through a data storage module, respectively marking the number of the qualified decoration construction stages and the number of the unqualified decoration construction stages as a qualified decoration value and an abnormal decoration value, and calculating the ratio of the abnormal decoration value to the qualified decoration value to obtain a stage representation value;

and calling a preset decoration performance threshold value and a preset stage performance threshold value through a data storage module, respectively carrying out numerical value comparison on the decoration performance value and the stage performance value with the preset decoration performance threshold value and the preset stage performance threshold value, if the decoration performance value and the stage performance value are less than or equal to the preset threshold values, generating a completion qualified report, and otherwise, generating a completion unqualified report.

Images