CN116108615A - Intelligent arrangement system and checking method for electric lighting points of commercial complex building - Google Patents

Abstract

The invention relates to the technical field of building illumination design, in particular to an intelligent arrangement system and a checking method for electrical illumination points of a commercial complex building, which comprise the steps of identifying building parameters and component parameters of a current layer of a civil model, arranging illumination points in an intelligent batch mode, checking and correcting illumination points illumination, automatically connecting pipelines with the illumination points and counting engineering quantities of the illumination system.

Description

Intelligent arrangement system and checking method for electric lighting points of commercial complex building

Technical Field

The invention relates to the technical field of building illumination design, in particular to an intelligent arrangement system and a checking method for electric illumination points of a commercial complex building.

Background

In commercial complex buildings, the building and the light are indispensable and complement each other, and especially for the overall illumination which can beautify the appearance of the building, the traditional view considers that the ideal effect can be obtained by only placing the light appliance with strong projection. In the commercial complex architecture, the light engineering is the illumination engineering with both functionality and decoration, and the good architectural illumination design can create the necessary economic benefit and social benefit while the visual enjoyment occurs, especially for some high-end commercial complex projects, the quality of the light engineering can directly influence the project quality and the customer experience.

When the existing commercial complex building designs an electrical lighting point, the position and the number of the lighting point are adjusted after the point is manually arranged, illuminance is manually calculated, parameters such as lighting power density and the like are checked. When the building adjusts the room area, fireproof partition arrangement and room functions, electricity needs to be redesigned, so that repeated workload is high, the design efficiency is low, and the situations of omission, misplacement, point elevation errors and the like are easy to occur.

Therefore, in order to solve the problems, the invention provides the intelligent arrangement system and the checking method for the electric lighting points of the commercial complex building, and solves the problem that repeated design modification is needed when part of building structures are adjusted by intelligently identifying component parameters in building and structural design models and correspondingly determining the types and data requirements of lighting fixtures to be arranged on the layer.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides an intelligent arrangement system and a checking method for electric lighting points of a commercial complex building, solves the problem that repeated design modification is needed when part of building structures are adjusted by intelligently identifying component parameters in building and structure design models and correspondingly determining the types and data requirements of lighting fixtures to be arranged on the layer,

in order to achieve the above purpose, the invention provides an intelligent arrangement system and a checking method for electric lighting points of a commercial complex building, comprising the following steps:

s1, identifying building parameters and component parameters of a current layer of a civil engineering model;

s2, setting an illumination point position arrangement space;

s3, setting arrangement parameters of illumination points;

s4, intelligently arranging illumination points in batches;

s5, checking and correcting illumination of the illumination point;

s6, automatically connecting the illumination points with a pipeline;

s7, counting engineering quantity of the lighting system.

The building parameters in S1 include elevation, floor height, wall, beam, slab, column, ceiling, room separation, and fire partition information.

The component parameters in S1 are obtained by intelligently identifying building and structure design models before the design of the commercial complex building electric lighting system, and comprise elevation parameters of the current layer in the building and structure models, positioning dimensions of building and structure walls, elevation and thickness of building and structure floors, positioning positions and dimensions of structural columns, layout parameters of building rooms, partition space division parameters of building fireproof partitions and required parameter contents of building ceilings.

S2 comprises the following steps:

s21, identifying different functional parameters of the current building space, rechecking the setting range of the lighting point position arrangement space and using lighting lamp point positions of different types in different spaces;

s22, defining a fine assembly range of a public area, defining a fine assembly area of a shop ceiling, and arranging lamps according to a fine assembly ceiling scheme;

s23, defining a lighting lamp arrangement principle of a special space;

s24, arranging emergency evacuation lighting lamps according to the fireproof partition and the evacuation direction information.

The arrangement principle in S23 includes that the stairwell lamps are arranged and the tube well space is not arranged.

S3 comprises the following steps:

according to the parameter data of the current building structural member, the type and the data requirement of the lighting fixtures to be arranged on the layer are determined according to the national standard requirement, and the determination of the illuminance, the power and the type of the point positions of the lighting fixtures, the installation space, the installation height and the lamp switch is included.

S4 comprises the following steps:

and performing intelligent batch arrangement operation on the set current building space to arrange the lighting lamp points, and archiving the file after the arrangement is completed, if the space area which does not meet the arrangement rule exists, providing a DWG drawing circle diagram mode for a designer to review.

S5 comprises the following steps: and the designer checks the data of the lighting lamp points arranged on the current layer, checks the contents of the lamp model, the illumination requirement, the lighting power density requirement, the installation form and the like of the lighting lamp points, and ensures that the design depth is met.

S6 comprises the following steps:

after the intelligent arrangement and connection of the electrical lighting points of the building are completed, the engineering quantity of the lighting lamp points of the current layer is automatically derived from the electrical design model, engineering quantity parameters including the number of the lamp points, the length of the guide pipe, the number of the pipeline joints, the length of the guide wire and the like are included, and reliable data are provided for the subsequent work of the calculated quantity.

The invention has the following beneficial effects:

compared with the prior art, the invention systematically designs and controls the lighting point position parameters, the point position, the system design and the like of the commercial complex building, improves the design efficiency of the lighting system of the commercial complex building, and strengthens the design quality of the lighting system from the design angle.

Drawings

FIG. 1 is a flow chart of the present invention.

Fig. 2 is a flow chart of the present invention.

FIG. 3 is a schematic representation of the three-dimensional outcome of the design of the present invention.

FIG. 4 is a schematic of a three-dimensional local effort of the present invention.

Fig. 5 is a plan view of the design result of the present invention.

FIG. 6 is a schematic diagram of a commercial business ecological floor intelligent layout point location according to the present invention.

Fig. 7 is a detailed view of the intelligent layout point of the present invention.

Detailed Description

The invention will now be further described with reference to the accompanying drawings.

Referring to fig. 1 to 7, the invention provides an intelligent arrangement system and a checking method for electric lighting points of a commercial complex building, comprising the following steps:

s1, identifying building parameters and component parameters of a current layer of a civil engineering model;

s2, setting an illumination point position arrangement space;

s3, setting arrangement parameters of illumination points;

s4, intelligently arranging illumination points in batches;

s5, checking and correcting illumination of the illumination point;

s6, automatically connecting the illumination points with a pipeline;

s7, counting engineering quantity of the lighting system.

The building parameters in S1 include elevation, floor height, wall, beam, slab, column, ceiling, room separation, and fire partition information.

The component parameters in S1 are obtained by intelligently identifying building and structure design models before the design of the commercial complex building electric lighting system, and comprise elevation parameters of the current layer in the building and structure models, positioning dimensions of building and structure walls, elevation and thickness of building and structure floors, positioning positions and dimensions of structural columns, layout parameters of building rooms, partition space division parameters of building fireproof partitions and required parameter contents of building ceilings.

S2 comprises the following steps:

s21, identifying different functional parameters of the current building space, rechecking the setting range of the lighting point position arrangement space and using lighting lamp point positions of different types in different spaces;

s22, defining a fine assembly range of a public area, defining a fine assembly area of a shop ceiling, and arranging lamps according to a fine assembly ceiling scheme;

s23, defining a lighting lamp arrangement principle of a special space;

s24, arranging emergency evacuation lighting lamps according to the fireproof partition and the evacuation direction information.

The arrangement principle in S23 includes that the stairwell lamps are arranged and the tube well space is not arranged.

S3 comprises the following steps:

according to the parameter data of the current building structural member, the type and the data requirement of the lighting fixtures to be arranged on the layer are determined according to the national standard requirement, and the determination of the illuminance, the power and the type of the point positions of the lighting fixtures, the installation space, the installation height and the lamp switch is included.

S4 comprises the following steps:

and performing intelligent batch arrangement operation on the set current building space to arrange the lighting lamp points, and archiving the file after the arrangement is completed, if the space area which does not meet the arrangement rule exists, providing a DWG drawing circle diagram mode for a designer to review.

S5 comprises the following steps: and the designer checks the data of the lighting lamp points arranged on the current layer, checks the contents of the lamp model, the illumination requirement, the lighting power density requirement, the installation form and the like of the lighting lamp points, and ensures that the design depth is met.

S6 comprises the following steps:

after the intelligent arrangement and connection of the electrical lighting points of the building are completed, the engineering quantity of the lighting lamp points of the current layer is automatically derived from the electrical design model, engineering quantity parameters including the number of the lamp points, the length of the guide pipe, the number of the pipeline joints, the length of the guide wire and the like are included, and reliable data are provided for the subsequent work of the calculated quantity.

The above is only a preferred embodiment of the present invention, only for helping to understand the method and the core idea of the present application, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the present invention may occur to one skilled in the art without departing from the principles of the present invention and are intended to be within the scope of the present invention.

The invention solves the problems that in the prior art, when the building adjusts the room area, fireproof partition arrangement and room functions, the electricity needs to be redesigned, so that the repeated workload is very large, the design efficiency is very low, omission, misplacement and modification, point elevation errors and the like are easy to occur, and the design efficiency of the lighting system of the commercial complex building is improved by systematically designing and controlling the lighting point parameters, point positions, system design and the like of the commercial complex building, the design quality of the lighting system of the commercial complex building is enhanced from the design angle, the design efficiency is improved, and the drawing quality is improved.

Claims (9)

1. The intelligent arrangement system and the checking method for the electric lighting points of the commercial complex building are characterized by comprising the following steps:

s1, identifying building parameters and component parameters of a current layer of a civil engineering model;

s2, setting an illumination point position arrangement space;

s3, setting arrangement parameters of illumination points;

s4, intelligently arranging illumination points in batches;

s5, checking and correcting illumination of the illumination point;

s6, automatically connecting the illumination points with a pipeline;

s7, counting engineering quantity of the lighting system.

2. The intelligent arrangement system and checking method for electrical lighting points of a commercial complex building according to claim 1, wherein the building parameters in S1 include elevation, floor height, wall, beam, slab, column, ceiling, room separation and fire partition information.

3. The intelligent arrangement system and the checking method for the electrical lighting points of the commercial complex building according to claim 1, wherein the component parameters in the S1 are obtained by intelligently identifying building and structure design models before the design of the electrical lighting system of the commercial complex building, and the component parameters comprise elevation parameters of a current layer in the building and structure models, positioning dimensions of the building and structure walls, elevation and thickness of building and structure floors, positioning positions and dimensions of structural columns, layout parameters of building rooms, space division parameters of fireproof partitions of the building and required parameter contents of suspended ceilings of the building.

4. The intelligent arrangement system and check method for electrical lighting points of a commercial complex building according to claim 1, wherein the S2 comprises:

s21, identifying different functional parameters of the current building space, rechecking the setting range of the lighting point position arrangement space and using lighting lamp point positions of different types in different spaces;

s22, defining a fine assembly range of a public area, defining a fine assembly area of a shop ceiling, and arranging lamps according to a fine assembly ceiling scheme;

s23, defining a lighting lamp arrangement principle of a special space;

s24, arranging emergency evacuation lighting lamps according to the fireproof partition and the evacuation direction information.

5. The intelligent arrangement system and the checking method for the electrical lighting points of the commercial complex building according to claim 4, wherein the arrangement principle in the step S23 comprises arrangement of stairwell lamps and arrangement of pipe well spaces.

6. The intelligent arrangement system and check method for electrical lighting points of a commercial complex building according to claim 1, wherein the step S3 comprises:

according to the parameter data of the current building structural member, the type and the data requirement of the lighting fixtures to be arranged on the layer are determined according to the national standard requirement, and the determination of the illuminance, the power and the type of the point positions of the lighting fixtures, the installation space, the installation height and the lamp switch is included.

7. The intelligent arrangement system and check method for electrical lighting points of a commercial complex building according to claim 1, wherein the S4 comprises:

and performing intelligent batch arrangement operation on the set current building space to arrange the lighting lamp points, and archiving the file after the arrangement is completed, if the space area which does not meet the arrangement rule exists, providing a DWG drawing circle diagram mode for a designer to review.

8. The intelligent arrangement system and check method for electrical lighting points of a commercial complex building according to claim 1, wherein the step S5 comprises: and the designer checks the data of the lighting lamp points arranged on the current layer, checks the contents of the lamp model, the illumination requirement, the lighting power density requirement, the installation form and the like of the lighting lamp points, and ensures that the design depth is met.

9. The intelligent arrangement system and check method for electrical lighting points of a commercial complex building according to claim 1, wherein the step S6 comprises:

after the intelligent arrangement and connection of the electrical lighting points of the building are completed, the engineering quantity of the lighting lamp points of the current layer is automatically derived from the electrical design model, engineering quantity parameters including the number of the lamp points, the length of the guide pipe, the number of the pipeline joints, the length of the guide wire and the like are included, and reliable data are provided for the subsequent work of the calculated quantity.

Images