CN115098927B - Cloud computing-based household decoration design cloud service platform - Google Patents

Abstract

The invention discloses a cloud computing-based home decoration design cloud service platform, which comprises the following components: the system comprises a living room ceiling design parameter extraction module, a living room ceiling design height rationality analysis module, a living room ceiling built-in lamp strip design brightness rationality analysis module, a living room ceiling lighting lamp design position rationality analysis module, a living room ceiling design bearing danger analysis module, a living room ceiling design scheme comprehensive evaluation module, a display terminal and a database, wherein the living room ceiling design height, the ceiling built-in lamp strip design brightness, the rationality of a main lighting lamp and an auxiliary lighting lamp design position and the living room ceiling design bearing danger are analyzed, and then the comprehensive evaluation coefficient corresponding to the living room ceiling design scheme is evaluated according to the analysis and evaluation of the living room ceiling design scheme from a plurality of dimensions, so that the rationality of the living room ceiling design scheme is guaranteed, and the rationality of the living room ceiling design scheme is improved.

Description

Cloud computing-based household decoration design cloud service platform

Technical Field

The invention relates to the technical field of home decoration, in particular to a cloud computing-based cloud service platform for home decoration design.

Background

The rapid development of the real estate in recent years promotes the development of home decoration, so as to meet the requirements of people on the home decoration, more and more people select decoration design companies to design the home decoration, further, the decoration design companies have more and more strict requirements on the design scheme of the home decoration, further, the design scheme of the home decoration needs to be analyzed and evaluated, in a plurality of home decoration projects, the design of the living room ceiling decoration is an indispensable step, and the living room ceiling decoration has the advantages of good decoration effect, high grade, convenience in installing a central air conditioner, capability of installing auxiliary light and the like, so that the analysis and evaluation of the design scheme of the living room ceiling are particularly important.

The existing technology for analyzing and evaluating the design scheme of the suspended ceiling in the living room has the following defects:

(1) The existing analysis and evaluation technology of the design scheme of the suspended ceiling in the living room only analyzes and evaluates the design bearing of the suspended ceiling in the living room, the influence of the design height of the suspended ceiling in the living room, the design brightness of a built-in lamp strip and the design position of the lamp on the evaluation direction of the design scheme of the suspended ceiling in the living room is ignored, the analysis dimension is single, and the accuracy of the analysis and evaluation result cannot be guaranteed, so that the rationality of the evaluation direction of the design scheme of the suspended ceiling in the living room is influenced.

(2) The analysis and evaluation technology of the existing living room ceiling design scheme mostly only considers the influence of the living room ceiling design volume on the living room ceiling design load bearing when analyzing and evaluating the living room ceiling design load bearing, ignores the influence of the quality of living room ceiling decoration on the living room ceiling design load bearing, further causes the limitation of the living room ceiling design load bearing analysis and evaluation result, and cannot discover the load bearing risk existing in the living room ceiling design scheme in time, thereby affecting the rationality of the living room ceiling design load bearing.

Disclosure of Invention

In order to overcome the defects in the background technology, the embodiment of the invention provides a cloud computing-based home decoration design cloud service platform, which can effectively solve the problems related to the background technology.

The aim of the invention can be achieved by the following technical scheme:

a cloud computing-based home furnishing design cloud service platform, comprising: the system comprises a living room ceiling design parameter extraction module, a living room ceiling design height rationality analysis module, a living room ceiling built-in lamp strip design brightness rationality analysis module, a living room ceiling lighting lamp design position rationality analysis module, a living room ceiling design bearing danger analysis module, a living room ceiling design scheme comprehensive evaluation module, a display terminal and a database, wherein the living room ceiling design parameter extraction module is used for extracting a living room ceiling design height rationality analysis module;

the living room ceiling design parameter extraction module is used for extracting living room ceiling design parameters, wherein the design parameters comprise a living room ceiling design height corresponding to a designated house, a living room ceiling design length corresponding to the living room ceiling, a living room ceiling design width, a living room ceiling design thickness, a living room ceiling design height corresponding to a main lighting lamp, a living room ceiling corresponding built-in lamp belt design brightness, various living room ceiling design decorations and a living room ceiling lighting lamp position design diagram;

the living room ceiling design height rationality analysis module is used for analyzing rationality of the living room ceiling design height, and further obtaining a design height rationality coefficient corresponding to the living room ceiling;

the reasonable analysis module of the design brightness of the built-in lamp strip of the suspended ceiling in the living room is used for analyzing the rationality of the design brightness of the built-in lamp strip of the suspended ceiling in the living room, so as to obtain the reasonable coefficient of the design brightness of the built-in lamp strip corresponding to the suspended ceiling in the living room;

the system comprises a living room ceiling lighting lamp design position rationality analysis module, a living room ceiling lighting lamp design position rationality analysis module and a living room ceiling lighting lamp management module, wherein the living room ceiling lighting lamp design position rationality analysis module is used for analyzing the living room ceiling main lighting lamp design parameter rationality and the auxiliary lighting lamp design position rationality, and the main lighting lamp design parameter comprises a main lighting lamp design height and a main lighting lamp design position, so that a main lighting lamp design parameter rationality coefficient and an auxiliary lighting lamp design position rationality coefficient corresponding to a living room ceiling are obtained, and a lighting lamp design position rationality coefficient corresponding to the living room ceiling is obtained;

the living room ceiling design bearing risk analysis module is used for analyzing the living room ceiling design bearing risk, so as to obtain a design bearing risk coefficient corresponding to the living room ceiling;

the comprehensive evaluation module is used for evaluating the comprehensive evaluation coefficients corresponding to the suspended ceiling design scheme according to the reasonable design height coefficients, the reasonable design brightness coefficients of the built-in lamp strips, the reasonable design position coefficients of the illuminating lamps and the designed bearing danger coefficients corresponding to the suspended ceiling design scheme;

the database is used for storing reasonable brightness of the built-in lamp bands corresponding to the heights of the suspended ceilings in the living rooms and the thicknesses of the suspended ceilings in the living rooms, and storing the allowable range of the design volume of the suspended ceilings in the living rooms corresponding to the allowable bearing quality;

and the display terminal is used for displaying the comprehensive evaluation coefficients corresponding to the living room ceiling design scheme.

Further, the specific analysis method of the design height reasonable coefficient corresponding to the living room suspended ceiling comprises the following steps:

a1: acquiring the height of a designated house;

a2: matching the height of the appointed house with the preset ceiling height of the living room required corresponding to the height of each house, and further matching the ceiling required height of the living room corresponding to the appointed house;

a3: the design height of the suspended ceiling of the living room corresponding to the appointed house is compared with the required height of the suspended ceiling of the living room corresponding to the appointed house, and then the reasonable coefficient of the design height corresponding to the suspended ceiling of the living room is analyzed, and the calculation formula is as follows:

wherein eta represents a reasonable coefficient of the design height corresponding to the suspended ceiling in the living room, d represents the design height of the suspended ceiling in the living room corresponding to the specified house, and d' represents the required height of the suspended ceiling in the living room corresponding to the specified house.

Further, the specific method for acquiring the height of the specified house comprises the following steps: and detecting the height of the appointed house by using a laser distance sensor, and further acquiring the height of the appointed house from the detected height.

Further, the specific analysis method of the reasonable coefficient of the design brightness of the built-in light belt corresponding to the suspended ceiling in the living room comprises the following steps:

c1: the design width and the design thickness corresponding to the suspended ceilings in the living room are imported into the database to store the reasonable brightness of the built-in lamp bands corresponding to the suspended ceilings in the living room, and the reasonable brightness of the built-in lamp bands corresponding to the suspended ceilings in the living room is further matched;

c2: according to reasonable brightness of the built-in lamp strip corresponding to the suspended ceiling in the living room and reasonable coefficient of the design brightness of the built-in lamp strip corresponding to the suspended ceiling in the living room, the calculation formula is as follows:

wherein ω represents a reasonable luminance coefficient of the built-in light band design corresponding to the living room ceiling, ω "represents a reasonable luminance of the built-in light band corresponding to the living room ceiling, and ω' represents a luminance of the built-in light band design corresponding to the living room ceiling.

Further, the specific analysis method of the reasonable coefficient of the design parameter of the main lighting lamp corresponding to the living room ceiling comprises the following steps:

d1: matching the height of the living room ceiling corresponding to the appointed house with the height of the main lighting lamp corresponding to the preset suspended ceiling demand height of each living room, and further matching the demand height of the main lighting lamp corresponding to the suspended ceiling of the living room;

d2: according to the demand height and the design height of the main lighting lamp corresponding to the living room ceiling, the reasonable coefficient of the design height of the main lighting lamp corresponding to the living room ceiling is analyzed, and the calculation formula is as follows:

wherein delta represents a reasonable coefficient of the design height of the main lighting lamp corresponding to the suspended ceiling in the living room, and h' respectively represent the design height and the required height of the main lighting lamp corresponding to the suspended ceiling in the living room;

d3: extracting the outline of a main lighting lamp from a position design drawing of a living room ceiling lighting lamp, and extracting the outline of the living room ceiling;

d4: acquiring each end point of the suspended ceiling outline of the living room, and making diagonal lines according to each end point so as to obtain intersection points of the diagonal lines;

d5: establishing a two-dimensional rectangular coordinate system by taking a designated endpoint of the suspended ceiling outline of the living room as an origin, and acquiring an intersection point coordinate of a diagonal line;

d6: extracting a central point of the main lighting lamp from the outline of the main lighting lamp, and acquiring coordinates of the central point of the main lighting lamp;

d7: according to the coordinates of the center point of the main lighting lamp, the coordinates of the intersection point of diagonal lines and the preset allowable offset distance of the main lighting lamp, the reasonable coefficient of the design position of the suspended ceiling of the living room corresponding to the main lighting lamp is analyzed, and the calculation formula is as follows:

wherein epsilon represents reasonable coefficient of design position of main lighting lamp corresponding to suspended ceiling in living room, and x _{In (a)} 、y _{In (a)} Respectively represents the abscissa and the ordinate of the central point of the main lighting lamp, and x _{Traffic intersection} 、y _{Traffic intersection} Respectively representing the abscissa and the ordinate of the intersection point of the diagonal lines, and l represents the allowable offset distance of the main illuminating lamp;

d8: according to the reasonable coefficient of the design height and the reasonable coefficient of the design position of the main lighting lamp corresponding to the suspended ceiling in the living room, the reasonable coefficient of the design parameter of the main lighting lamp corresponding to the suspended ceiling in the living room is analyzed, and the calculation formula is as follows:

wherein->

And the reasonable coefficient of the design parameter of the main lighting lamp corresponding to the suspended ceiling in the living room is represented.

Further, the specific analysis method of the reasonable coefficient of the design position of the auxiliary lighting lamp corresponding to the suspended ceiling in the living room comprises the following steps:

f1: extracting outline outer edge lines of the suspended ceilings in the living room, and numbering the outline outer edge lines as 1,2, i, n, further obtaining outlines of auxiliary lighting lamps on the outline outer edge lines, so as to extract outline center points of the auxiliary lighting lamps on the outline outer edge lines;

f2: connecting contour center points of all auxiliary lighting lamps on the contour outer edge lines, and marking the connected line segments as auxiliary lighting lamp center lines so as to obtain auxiliary lighting lamp center lines corresponding to the contour outer edge lines;

f3: simultaneously taking the central line of the auxiliary illuminating lamp corresponding to each contour outer edge line and the contour outer edge line as an extension line, judging whether an intersection point exists, if the central line of the auxiliary illuminating lamp corresponding to a contour outer edge line and the contour outer edge line have the intersection point, marking the coincidence index of the installation position of the auxiliary illuminating lamp corresponding to the contour outer edge line as a, otherwise, marking the coincidence index of the installation position of the auxiliary illuminating lamp corresponding to the contour outer edge line as a';

f4: according to reasonable coefficients of the design positions of the auxiliary lighting lamps corresponding to the suspended ceilings in the living room, which correspond to the installation positions of the auxiliary lighting lamps, according to the coincidence index of the outer edge lines of the outlines, the calculation formula is as follows:

wherein θ represents a reasonable coefficient of the design position of the auxiliary lighting lamp corresponding to the suspended ceiling of the living room, and β _i A compliance index indicating the mounting position of the auxiliary lamp corresponding to the i-th contour outer edge line, wherein beta _i The value of (a) is a or a'.

Further, the specific calculation formula of the reasonable coefficient of the design position of the illuminating lamp corresponding to the suspended ceiling in the living room is as follows:

wherein phi represents a reasonable coefficient of the design position of the lighting lamp corresponding to the suspended ceiling of the living room.

Further, the specific analysis method of the designed bearing risk coefficient corresponding to the living room suspended ceiling comprises the following steps:

e1: each design ornament existing on the living room ceiling is numbered 1,2, t, u;

e2: the quality of each design decoration on the suspended ceiling of the living room is obtained, and then a quality set of the designed decoration corresponding to the suspended ceiling of the living room is obtained;

e3: according to the quality analysis of each design decoration of the living room suspended ceiling, the corresponding pre-bearing quality of the living room suspended ceiling is carried out, and the calculation formula is as follows:

wherein sigma represents the pre-bearing quality corresponding to the suspended ceiling in the living room, g _t The quality of the design decoration of the t-th ceiling of the living room is represented;

e4: calculating the design volume corresponding to the living room suspended ceiling according to the design length, the design width and the design thickness corresponding to the living room suspended ceiling, and matching the design volume with the allowable range of the living room suspended ceiling design volume corresponding to each allowable bearing quality stored in the database, thereby matching the allowable bearing quality of the living room suspended ceiling;

e5: analyzing a design bearing coincidence coefficient corresponding to the living room suspended ceiling according to the pre-bearing quality corresponding to the living room suspended ceiling and the allowable bearing quality of the living room suspended ceiling, wherein the calculation formula is as follows:

wherein xi represents the design bearing coincidence coefficient corresponding to the suspended ceiling in the living room, and sigma' represents the allowable bearing quality of the suspended ceiling in the living room;

e6: extracting the maximum mass of the ornament and the minimum mass of the ornament from a design ornament mass set corresponding to the living room suspended ceiling, and analyzing a design bearing mass fluctuation coefficient corresponding to the living room suspended ceiling according to the maximum mass and the minimum mass of the ornament corresponding to the living room suspended ceiling and the allowable bearing mass of the living room suspended ceiling, wherein the calculation formula is as follows:

wherein->

G represents the design bearing quality fluctuation coefficient corresponding to the suspended ceiling in the living room _{Big size} 、g _{Small size} Respectively representing the maximum mass and the minimum mass of the ornament corresponding to the suspended ceiling of the living room;

e7: design bearing corresponding to suspended ceiling in living roomThe heavy coincidence coefficient and the design bearing quality fluctuation coefficient analyze the design bearing risk coefficient corresponding to the suspended ceiling in the living room, and the calculation formula is as follows:

wherein->

And the designed bearing dangerous coefficient corresponding to the suspended ceiling in the living room is represented.

Further, the specific calculation formula of the comprehensive evaluation coefficient corresponding to the living room ceiling design scheme is as follows:

wherein psi represents the comprehensive evaluation coefficient corresponding to the design scheme of the suspended ceiling in the living room.

Compared with the prior art, the embodiment of the invention has at least the following advantages or beneficial effects:

(1) When the design scheme of the living room suspended ceiling is analyzed and evaluated, the design bearing of the living room suspended ceiling is analyzed, the design height of the living room suspended ceiling, the design brightness of the built-in lamp belt and the design position of the illuminating lamp are analyzed, the influence of the design height of the living room suspended ceiling, the design brightness of the built-in lamp belt and the design position of the illuminating lamp on the evaluation of the design scheme of the living room suspended ceiling is considered, the design scheme of the living room suspended ceiling is analyzed and evaluated from multiple dimensions, the accuracy of analysis and evaluation results is further guaranteed, and the evaluation rationality of the design scheme of the living room suspended ceiling is further guaranteed.

(2) When the method is used for analyzing and evaluating the design bearing of the living room suspended ceiling, the influence of the design volume of the living room suspended ceiling on the design bearing of the living room suspended ceiling is analyzed, and the influence of the quality of the decoration of the living room suspended ceiling on the design bearing of the living room suspended ceiling is analyzed, so that the problem that the analysis and evaluation result of the design bearing of the living room suspended ceiling has limitation is solved, and the rationality of the design bearing of the living room suspended ceiling is improved.

(3) When the quality of the living room ceiling decoration is analyzed, the invention analyzes not only the total quality of the living room ceiling decoration, but also the fluctuation of the quality of the living room ceiling decoration, thereby avoiding the phenomenon of unstable design bearing in the living room ceiling design scheme and further improving the rationality of the evaluation direction of the living room ceiling design scheme.

Drawings

The invention will be further described with reference to the accompanying drawings, in which embodiments do not constitute any limitation of the invention, and other drawings can be obtained by one of ordinary skill in the art without inventive effort from the following drawings.

Fig. 1 is a schematic diagram of a cloud service platform for home decoration design based on cloud computing.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, the invention provides a cloud computing-based home decoration design cloud service platform, which comprises a living room ceiling design parameter extraction module, a living room ceiling design height rationality analysis module, a living room ceiling built-in lamp strip design brightness rationality analysis module, a living room ceiling lighting lamp design position rationality analysis module, a living room ceiling design bearing risk analysis module, a living room ceiling design scheme comprehensive evaluation module, a display terminal and a database.

The system comprises a living room ceiling design height rationality analysis module, a living room ceiling built-in lamp strip design brightness rationality analysis module, a living room ceiling lighting lamp design position rationality analysis module and a living room ceiling design bearing danger analysis module, wherein the living room ceiling design height rationality analysis module, the living room ceiling built-in lamp strip design brightness rationality analysis module, the living room ceiling lighting lamp design position rationality analysis module and the living room ceiling design bearing danger analysis module are respectively connected with a living room ceiling design parameter extraction module and a living room ceiling design scheme comprehensive evaluation module, a display terminal is connected with the living room ceiling design scheme comprehensive evaluation module, and a database is respectively connected with the living room ceiling design height rationality analysis module and the living room ceiling design bearing danger analysis module.

The living room ceiling design parameter extraction module is used for extracting living room ceiling design parameters, wherein the design parameters comprise a living room ceiling design height corresponding to a designated house, a living room ceiling design length corresponding to the living room ceiling, a living room ceiling design width, a living room ceiling design thickness, a living room ceiling design height corresponding to a main lighting lamp, a living room ceiling corresponding built-in lamp belt design brightness, various living room ceiling design decorations and a living room ceiling lighting lamp position design diagram;

the living room ceiling design height rationality analysis module is used for analyzing rationality of the living room ceiling design height, and further obtaining a design height rationality coefficient corresponding to the living room ceiling.

In the above embodiment, the specific analysis method of the design height reasonable coefficient corresponding to the living room ceiling is as follows:

a1: acquiring the height of a designated house;

a2: matching the height of the appointed house with the preset ceiling height of the living room required corresponding to the height of each house, and further matching the ceiling required height of the living room corresponding to the appointed house;

a3: the design height of the suspended ceiling of the living room corresponding to the appointed house is compared with the required height of the suspended ceiling of the living room corresponding to the appointed house, and then the reasonable coefficient of the design height corresponding to the suspended ceiling of the living room is analyzed, and the calculation formula is as follows:

wherein eta represents a reasonable coefficient of the design height corresponding to the suspended ceiling in the living room, d represents the design height of the suspended ceiling in the living room corresponding to the specified house, and d' represents the required height of the suspended ceiling in the living room corresponding to the specified house.

In the above embodiment, the specific method for acquiring the height of the specified house is as follows: and detecting the height of the appointed house by using a laser distance sensor, and further acquiring the height of the appointed house from the detected height.

The reasonable analysis module of the design brightness of the built-in lamp strip of the suspended ceiling in the living room is used for analyzing the rationality of the design brightness of the built-in lamp strip of the suspended ceiling in the living room, and further obtaining the reasonable coefficient of the design brightness of the built-in lamp strip corresponding to the suspended ceiling in the living room.

In the above embodiment, the specific analysis method for the reasonable design brightness coefficient of the built-in light belt corresponding to the suspended ceiling in the living room is as follows:

c1: the design width and the design thickness corresponding to the suspended ceilings in the living room are imported into the database to store the reasonable brightness of the built-in lamp bands corresponding to the suspended ceilings in the living room, and the reasonable brightness of the built-in lamp bands corresponding to the suspended ceilings in the living room is further matched;

c2: according to reasonable brightness of the built-in lamp strip corresponding to the suspended ceiling in the living room and reasonable coefficient of the design brightness of the built-in lamp strip corresponding to the suspended ceiling in the living room, the calculation formula is as follows:

wherein ω represents a reasonable luminance coefficient of the built-in light band design corresponding to the living room ceiling, ω "represents a reasonable luminance of the built-in light band corresponding to the living room ceiling, and ω' represents a luminance of the built-in light band design corresponding to the living room ceiling.

If the design brightness of the built-in lamp strip of the suspended ceiling in the living room is unreasonable, the uniformity of the illumination distribution of the built-in lamp strip of the suspended ceiling in the living room is affected, so that the design brightness of the built-in lamp strip of the suspended ceiling in the living room needs to be analyzed;

the system comprises a living room ceiling lighting lamp design position rationality analysis module, a living room ceiling lighting lamp design position rationality analysis module and a living room ceiling lighting lamp management module, wherein the living room ceiling lighting lamp design position rationality analysis module is used for analyzing the living room ceiling main lighting lamp design parameter rationality and the auxiliary lighting lamp design position rationality, and the main lighting lamp design parameter comprises a main lighting lamp design height and a main lighting lamp design position, so that a main lighting lamp design parameter rationality coefficient and an auxiliary lighting lamp design position rationality coefficient corresponding to a living room ceiling are obtained, and a lighting lamp design position rationality coefficient corresponding to the living room ceiling is obtained;

in the above embodiment, the specific analysis method of the reasonable coefficient of the design parameter of the main lighting lamp corresponding to the suspended ceiling in the living room is as follows:

d1: matching the height of the living room ceiling corresponding to the appointed house with the height of the main lighting lamp corresponding to the preset suspended ceiling demand height of each living room, and further matching the demand height of the main lighting lamp corresponding to the suspended ceiling of the living room;

d2: according to the demand height and the design height of the main lighting lamp corresponding to the living room ceiling, the reasonable coefficient of the design height of the main lighting lamp corresponding to the living room ceiling is analyzed, and the calculation formula is as follows:

wherein delta represents a reasonable coefficient of the design height of the main lighting lamp corresponding to the suspended ceiling in the living room, and h' respectively represent the design height and the required height of the main lighting lamp corresponding to the suspended ceiling in the living room;

d3: extracting the outline of a main lighting lamp from a position design drawing of a living room ceiling lighting lamp, and extracting the outline of the living room ceiling;

d4: acquiring each end point of the suspended ceiling outline of the living room, and making diagonal lines according to each end point so as to obtain intersection points of the diagonal lines;

d5: establishing a two-dimensional rectangular coordinate system by taking a designated endpoint of the suspended ceiling outline of the living room as an origin, and acquiring an intersection point coordinate of a diagonal line;

d6: extracting a central point of the main lighting lamp from the outline of the main lighting lamp, and acquiring coordinates of the central point of the main lighting lamp;

d7: according to the coordinates of the center point of the main lighting lamp, the coordinates of the intersection point of diagonal lines and the preset allowable offset distance of the main lighting lamp, the reasonable coefficient of the design position of the suspended ceiling of the living room corresponding to the main lighting lamp is analyzed, and the calculation formula is as follows:

wherein epsilon represents reasonable coefficient of design position of main lighting lamp corresponding to suspended ceiling in living room, and x _{In (a)} 、y _{In (a)} Respectively represents the abscissa and the ordinate of the central point of the main lighting lamp, and x _{Traffic intersection} 、y _{Traffic intersection} Respectively representing the abscissa and the ordinate of the intersection point of the diagonal lines, and l represents the allowable offset distance of the main illuminating lamp; />

D8: according to the reasonable coefficient of the design height and the reasonable coefficient of the design position of the main lighting lamp corresponding to the suspended ceiling in the living room, the reasonable coefficient of the design parameter of the main lighting lamp corresponding to the suspended ceiling in the living room is analyzed, and the calculation formula is as follows:

wherein->

And the reasonable coefficient of the design parameter of the main lighting lamp corresponding to the suspended ceiling in the living room is represented.

In the above embodiment, the specific analysis method for the reasonable coefficient of the design position of the auxiliary lighting lamp corresponding to the suspended ceiling in the living room is as follows:

f1: extracting outline outer edge lines of the suspended ceilings in the living room, and numbering the outline outer edge lines as 1,2, i, n, further obtaining outlines of auxiliary lighting lamps on the outline outer edge lines, so as to extract outline center points of the auxiliary lighting lamps on the outline outer edge lines;

f2: connecting contour center points of all auxiliary lighting lamps on the contour outer edge lines, and marking the connected line segments as auxiliary lighting lamp center lines so as to obtain auxiliary lighting lamp center lines corresponding to the contour outer edge lines;

f3: simultaneously taking the central line of the auxiliary illuminating lamp corresponding to each contour outer edge line and the contour outer edge line as an extension line, judging whether an intersection point exists, if the central line of the auxiliary illuminating lamp corresponding to a contour outer edge line and the contour outer edge line have the intersection point, marking the coincidence index of the installation position of the auxiliary illuminating lamp corresponding to the contour outer edge line as a, otherwise, marking the coincidence index of the installation position of the auxiliary illuminating lamp corresponding to the contour outer edge line as a';

f4: according to reasonable coefficients of the design positions of the auxiliary lighting lamps corresponding to the suspended ceilings in the living room, which correspond to the installation positions of the auxiliary lighting lamps, according to the coincidence index of the outer edge lines of the outlines, the calculation formula is as follows:

wherein θ represents a reasonable coefficient of the design position of the auxiliary lighting lamp corresponding to the suspended ceiling of the living room, and β _i A compliance index indicating the mounting position of the auxiliary lamp corresponding to the i-th contour outer edge line, wherein beta _i The value of (a) may be a or a'.

In the above embodiment, the living room ceiling pairThe specific calculation formula of the reasonable coefficient of the design position of the corresponding illuminating lamp is as follows:

wherein phi represents a reasonable coefficient of the design position of the lighting lamp corresponding to the suspended ceiling of the living room.

The living room ceiling design bearing risk analysis module is used for analyzing the living room ceiling design bearing risk, and further obtaining a design bearing risk coefficient corresponding to the living room ceiling.

In the above embodiment, the specific analysis method of the designed bearing risk coefficient corresponding to the living room suspended ceiling is:

e1: each design ornament existing on the living room ceiling is numbered 1,2, t, u;

e2: the quality of each design decoration on the suspended ceiling of the living room is obtained, and then a quality set of the designed decoration corresponding to the suspended ceiling of the living room is obtained;

e3: according to the quality analysis of each design decoration of the living room suspended ceiling, the corresponding pre-bearing quality of the living room suspended ceiling is carried out, and the calculation formula is as follows:

wherein sigma represents the pre-bearing quality corresponding to the suspended ceiling in the living room, g _t The quality of the design decoration of the t-th ceiling of the living room is represented;

e4: calculating the design volume corresponding to the living room suspended ceiling according to the design length, the design width and the design thickness corresponding to the living room suspended ceiling, and matching the design volume with the allowable range of the living room suspended ceiling design volume corresponding to each allowable bearing quality stored in the database, thereby matching the allowable bearing quality of the living room suspended ceiling;

e5: analyzing a design bearing coincidence coefficient corresponding to the living room suspended ceiling according to the pre-bearing quality corresponding to the living room suspended ceiling and the allowable bearing quality of the living room suspended ceiling, wherein the calculation formula is as follows:

wherein xi represents the design bearing coincidence coefficient corresponding to the suspended ceiling in the living room, and sigma' represents the allowable bearing quality of the suspended ceiling in the living room; />

E6: extracting the maximum mass of the ornament and the minimum mass of the ornament from a design ornament mass set corresponding to the living room suspended ceiling, and analyzing a design bearing mass fluctuation coefficient corresponding to the living room suspended ceiling according to the maximum mass and the minimum mass of the ornament corresponding to the living room suspended ceiling and the allowable bearing mass of the living room suspended ceiling, wherein the calculation formula is as follows:

wherein->

G represents the design bearing quality fluctuation coefficient corresponding to the suspended ceiling in the living room _{Big size} 、g _{Small size} Respectively representing the maximum mass and the minimum mass of the ornament corresponding to the suspended ceiling of the living room;

when the quality of the living room ceiling decoration is analyzed, the invention analyzes not only the total quality of the living room ceiling decoration, but also the fluctuation of the quality of the living room ceiling decoration, thereby avoiding the phenomenon of unstable design bearing in the living room ceiling design scheme and further improving the rationality of the evaluation direction of the living room ceiling design scheme.

E7: according to the design bearing coincidence coefficient and the design bearing quality fluctuation coefficient corresponding to the living room suspended ceiling, the design bearing danger coefficient corresponding to the living room suspended ceiling is analyzed, and the calculation formula is as follows:

wherein->

And the designed bearing dangerous coefficient corresponding to the suspended ceiling in the living room is represented.

When the design bearing of the living room suspended ceiling is analyzed and evaluated, the influence of the design volume of the living room suspended ceiling on the design bearing of the living room suspended ceiling is analyzed, the influence of the quality of the decoration of the living room suspended ceiling on the design bearing of the living room suspended ceiling is analyzed, and the problem that the analysis and evaluation result of the design bearing of the living room suspended ceiling has limitation is solved, so that the stability of the design bearing of the living room suspended ceiling is improved, and the invalid construction phenomenon caused by construction due to unreasonable design scheme of the living room suspended ceiling is avoided.

The comprehensive evaluation module is used for evaluating the comprehensive evaluation coefficients corresponding to the suspended ceiling design scheme according to the reasonable design height coefficients, the reasonable design brightness coefficients of the built-in lamp strips, the reasonable design position coefficients of the illuminating lamps and the designed bearing danger coefficients corresponding to the suspended ceiling design scheme.

In the above embodiment, the specific calculation formula of the comprehensive evaluation coefficient corresponding to the design scheme of the living room ceiling is:

wherein psi represents the comprehensive evaluation coefficient corresponding to the design scheme of the suspended ceiling in the living room.

When the design scheme of the living room suspended ceiling is analyzed and evaluated, the design bearing of the living room suspended ceiling is analyzed, the design height of the living room suspended ceiling, the design brightness of the built-in lamp belt and the design position of the illuminating lamp are analyzed, the influence of the design height of the living room suspended ceiling, the design brightness of the built-in lamp belt and the design position of the illuminating lamp on the evaluation of the design scheme of the living room suspended ceiling is considered, the design scheme of the living room suspended ceiling is analyzed and evaluated from multiple dimensions, the accuracy of analysis and evaluation results is further guaranteed, and the evaluation rationality of the design scheme of the living room suspended ceiling is further guaranteed.

The database is used for storing reasonable brightness of the built-in lamp bands corresponding to the heights of the suspended ceilings in the living rooms and the thicknesses of the suspended ceilings in the living rooms, and storing the allowable range of the design volume of the suspended ceilings in the living rooms corresponding to the allowable bearing quality.

And the display terminal is used for displaying the comprehensive evaluation coefficients corresponding to the living room ceiling design scheme.

The foregoing is merely illustrative of the structures of this invention and various modifications, additions and substitutions for those skilled in the art can be made to the described embodiments without departing from the scope of the invention or from the scope of the invention as defined in the accompanying claims.

Claims (8)

1. Cloud computing-based home decoration design cloud service platform is characterized by comprising: the system comprises a living room ceiling design parameter extraction module, a living room ceiling design height rationality analysis module, a living room ceiling built-in lamp strip design brightness rationality analysis module, a living room ceiling lighting lamp design position rationality analysis module, a living room ceiling design bearing danger analysis module, a living room ceiling design scheme comprehensive evaluation module, a display terminal and a database, wherein the living room ceiling design parameter extraction module is used for extracting a living room ceiling design height rationality analysis module;

the living room ceiling design parameter extraction module is used for extracting living room ceiling design parameters, wherein the design parameters comprise a living room ceiling design height corresponding to a designated house, a living room ceiling design length corresponding to the living room ceiling, a living room ceiling design width, a living room ceiling design thickness, a living room ceiling design height corresponding to a main lighting lamp, a living room ceiling corresponding built-in lamp belt design brightness, various living room ceiling design decorations and a living room ceiling lighting lamp position design diagram;

the living room ceiling design height rationality analysis module is used for analyzing rationality of the living room ceiling design height, and further obtaining a design height rationality coefficient corresponding to the living room ceiling;

the reasonable analysis module of the design brightness of the built-in lamp strip of the suspended ceiling in the living room is used for analyzing the rationality of the design brightness of the built-in lamp strip of the suspended ceiling in the living room, so as to obtain the reasonable coefficient of the design brightness of the built-in lamp strip corresponding to the suspended ceiling in the living room;

the system comprises a living room ceiling lighting lamp design position rationality analysis module, a living room ceiling lighting lamp design position rationality analysis module and a living room ceiling lighting lamp management module, wherein the living room ceiling lighting lamp design position rationality analysis module is used for analyzing the living room ceiling main lighting lamp design parameter rationality and the auxiliary lighting lamp design position rationality, and the main lighting lamp design parameter comprises a main lighting lamp design height and a main lighting lamp design position, so that a main lighting lamp design parameter rationality coefficient and an auxiliary lighting lamp design position rationality coefficient corresponding to a living room ceiling are obtained, and a lighting lamp design position rationality coefficient corresponding to the living room ceiling is obtained;

the living room ceiling design bearing risk analysis module is used for analyzing the living room ceiling design bearing risk, so as to obtain a design bearing risk coefficient corresponding to the living room ceiling;

the comprehensive evaluation module is used for evaluating the comprehensive evaluation coefficients corresponding to the suspended ceiling design scheme according to the reasonable design height coefficients, the reasonable design brightness coefficients of the built-in lamp strips, the reasonable design position coefficients of the illuminating lamps and the designed bearing danger coefficients corresponding to the suspended ceiling design scheme;

the database is used for storing reasonable brightness of the built-in lamp bands corresponding to the heights of the suspended ceilings in the living rooms and the thicknesses of the suspended ceilings in the living rooms, and storing the allowable range of the design volume of the suspended ceilings in the living rooms corresponding to the allowable bearing quality;

the display terminal is used for displaying the comprehensive evaluation coefficients corresponding to the living room ceiling design scheme;

the specific analysis method of the reasonable coefficient of the design height corresponding to the living room suspended ceiling comprises the following steps:

a1: acquiring the height of a designated house;

a2: matching the height of the appointed house with the preset ceiling height of the living room required corresponding to the height of each house, and further matching the ceiling required height of the living room corresponding to the appointed house;

a3: the design height of the suspended ceiling of the living room corresponding to the appointed house is compared with the required height of the suspended ceiling of the living room corresponding to the appointed house, and then the reasonable coefficient of the design height corresponding to the suspended ceiling of the living room is analyzed, and the calculation formula is as follows:

wherein eta represents a reasonable coefficient of the design height corresponding to the suspended ceiling in the living room, d represents the design height of the suspended ceiling in the living room corresponding to the specified house, and d' represents the required height of the suspended ceiling in the living room corresponding to the specified house.

2. The cloud computing-based home furnishing design cloud service platform as defined in claim 1, wherein: the specific method for acquiring the height of the appointed house comprises the following steps: and detecting the height of the appointed house by using a laser distance sensor, and further acquiring the height of the appointed house from the detected height.

3. The cloud computing-based home furnishing design cloud service platform as defined in claim 1, wherein: the specific analysis method of the reasonable brightness coefficient of the built-in lamp strip design corresponding to the living room suspended ceiling comprises the following steps:

c1: the design width and the design thickness corresponding to the suspended ceilings in the living room are imported into the database to store the reasonable brightness of the built-in lamp bands corresponding to the suspended ceilings in the living room, and the reasonable brightness of the built-in lamp bands corresponding to the suspended ceilings in the living room is further matched;

c2: according to reasonable brightness of the built-in lamp strip corresponding to the suspended ceiling in the living room and reasonable coefficient of the design brightness of the built-in lamp strip corresponding to the suspended ceiling in the living room, the calculation formula is as follows:

wherein ω represents a reasonable luminance coefficient of the built-in light band design corresponding to the living room ceiling, ω "represents a reasonable luminance of the built-in light band corresponding to the living room ceiling, and ω' represents a luminance of the built-in light band design corresponding to the living room ceiling.

4. A cloud computing-based home furnishing design cloud service platform as defined in claim 3, wherein: the specific analysis method of the reasonable coefficient of the design parameter of the main lighting lamp corresponding to the suspended ceiling in the living room comprises the following steps:

d1: matching the height of the living room ceiling corresponding to the appointed house with the height of the main lighting lamp corresponding to the preset suspended ceiling demand height of each living room, and further matching the demand height of the main lighting lamp corresponding to the suspended ceiling of the living room;

d2: according to the demand height and the design height of the main lighting lamp corresponding to the living room ceiling, the reasonable coefficient of the design height of the main lighting lamp corresponding to the living room ceiling is analyzed, and the calculation formula is as follows:

wherein delta represents a reasonable coefficient of the design height of the main lighting lamp corresponding to the suspended ceiling in the living room, and h' respectively represent the design height and the required height of the main lighting lamp corresponding to the suspended ceiling in the living room;

d3: extracting the outline of a main lighting lamp from a position design drawing of a living room ceiling lighting lamp, and extracting the outline of the living room ceiling;

d4: acquiring each end point of the suspended ceiling outline of the living room, and making diagonal lines according to each end point so as to obtain intersection points of the diagonal lines;

d5: establishing a two-dimensional rectangular coordinate system by taking a designated endpoint of the suspended ceiling outline of the living room as an origin, and acquiring an intersection point coordinate of a diagonal line;

d6: extracting a central point of the main lighting lamp from the outline of the main lighting lamp, and acquiring coordinates of the central point of the main lighting lamp;

d7: according to the coordinates of the center point of the main lighting lamp, the coordinates of the intersection point of diagonal lines and the preset allowable offset distance of the main lighting lamp, the reasonable coefficient of the design position of the suspended ceiling of the living room corresponding to the main lighting lamp is analyzed, and the calculation formula is as follows:

wherein epsilon represents reasonable coefficient of design position of main lighting lamp corresponding to suspended ceiling in living room, and x _{In (a)} 、y _{In (a)} Respectively represents the abscissa and the ordinate of the central point of the main lighting lamp, and x _{Traffic intersection} 、y _{Traffic intersection} Respectively representing the abscissa and the ordinate of the intersection point of the diagonal lines, and l represents the allowable offset distance of the main illuminating lamp;

d8: according to the reasonable coefficient of the design height and the reasonable coefficient of the design position of the main lighting lamp corresponding to the suspended ceiling in the living room, the reasonable coefficient of the design parameter of the main lighting lamp corresponding to the suspended ceiling in the living room is analyzed, and the calculation formula is as follows:

wherein->

And the reasonable coefficient of the design parameter of the main lighting lamp corresponding to the suspended ceiling in the living room is represented.

5. The cloud computing-based home furnishing design cloud service platform as defined in claim 4, wherein: the specific analysis method of the reasonable coefficient of the design position of the auxiliary lighting lamp corresponding to the suspended ceiling in the living room comprises the following steps:

f1: extracting outline outer edge lines of the suspended ceilings in the living room, and numbering the outline outer edge lines as 1,2, i, n, further obtaining outlines of auxiliary lighting lamps on the outline outer edge lines, so as to extract outline center points of the auxiliary lighting lamps on the outline outer edge lines;

f2: connecting contour center points of all auxiliary lighting lamps on the contour outer edge lines, and marking the connected line segments as auxiliary lighting lamp center lines so as to obtain auxiliary lighting lamp center lines corresponding to the contour outer edge lines;

f3: simultaneously taking the central line of the auxiliary illuminating lamp corresponding to each contour outer edge line and the contour outer edge line as an extension line, judging whether an intersection point exists, if the central line of the auxiliary illuminating lamp corresponding to a contour outer edge line and the contour outer edge line have the intersection point, marking the coincidence index of the installation position of the auxiliary illuminating lamp corresponding to the contour outer edge line as a, otherwise, marking the coincidence index of the installation position of the auxiliary illuminating lamp corresponding to the contour outer edge line as a';

f4: according to reasonable coefficients of the design positions of the auxiliary lighting lamps corresponding to the suspended ceilings in the living room, which correspond to the installation positions of the auxiliary lighting lamps, according to the coincidence index of the outer edge lines of the outlines, the calculation formula is as follows:

wherein θ represents a reasonable coefficient of the design position of the auxiliary lighting lamp corresponding to the suspended ceiling of the living room, and β _i A compliance index indicating the mounting position of the auxiliary lamp corresponding to the i-th contour outer edge line, wherein beta _i The value of (a) is a or a'.

6. The cloud computing-based home furnishing design cloud service platform as defined in claim 5, wherein: the specific calculation formula of the reasonable coefficient of the design position of the illuminating lamp corresponding to the suspended ceiling in the living room is as follows:

wherein phi represents a reasonable coefficient of the design position of the lighting lamp corresponding to the suspended ceiling of the living room.

7. The cloud computing-based home furnishing design cloud service platform as defined in claim 6, wherein: the concrete analysis method of the designed bearing dangerous coefficient corresponding to the living room suspended ceiling comprises the following steps:

e1: each design ornament existing on the living room ceiling is numbered 1,2, t, u;

e2: the quality of each design decoration on the suspended ceiling of the living room is obtained, and then a quality set of the designed decoration corresponding to the suspended ceiling of the living room is obtained;

e3: according to the quality analysis of each design decoration of the living room suspended ceiling, the corresponding pre-bearing quality of the living room suspended ceiling is carried out, and the calculation formula is as follows:

wherein sigma represents the pre-bearing quality corresponding to the suspended ceiling in the living room, g _t The quality of the design decoration of the t-th ceiling of the living room is represented;

e4: calculating the design volume corresponding to the living room suspended ceiling according to the design length, the design width and the design thickness corresponding to the living room suspended ceiling, and matching the design volume with the allowable range of the living room suspended ceiling design volume corresponding to each allowable bearing quality stored in the database, thereby matching the allowable bearing quality of the living room suspended ceiling;

e5: analyzing a design bearing coincidence coefficient corresponding to the living room suspended ceiling according to the pre-bearing quality corresponding to the living room suspended ceiling and the allowable bearing quality of the living room suspended ceiling, wherein the calculation formula is as follows:

wherein xi represents the design bearing coincidence coefficient corresponding to the suspended ceiling in the living room, and sigma' represents the allowable bearing quality of the suspended ceiling in the living room;

e6: extracting the maximum mass of the ornament and the minimum mass of the ornament from a design ornament mass set corresponding to the living room suspended ceiling, and analyzing a design bearing mass fluctuation coefficient corresponding to the living room suspended ceiling according to the maximum mass and the minimum mass of the ornament corresponding to the living room suspended ceiling and the allowable bearing mass of the living room suspended ceiling, wherein the calculation formula is as follows:

wherein->

G represents the design bearing quality fluctuation coefficient corresponding to the suspended ceiling in the living room _{Big size} 、g _{Small size} Respectively representing the maximum mass and the minimum mass of the ornament corresponding to the suspended ceiling of the living room;

e7: according to the design bearing coincidence coefficient and the design bearing quality fluctuation coefficient corresponding to the living room suspended ceiling, the design bearing danger coefficient corresponding to the living room suspended ceiling is analyzed, and the calculation formula is as follows:

wherein->

And the designed bearing dangerous coefficient corresponding to the suspended ceiling in the living room is represented.

8. The cloud computing-based home furnishing design cloud service platform as defined in claim 7, wherein: the specific calculation formula of the comprehensive evaluation coefficient corresponding to the living room ceiling design scheme is as follows:

wherein psi represents the comprehensive evaluation coefficient corresponding to the design scheme of the suspended ceiling in the living room. />

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