CN111985038A - Method and device for calculating engineering quantity of space to be repaired - Google Patents

Abstract

The invention provides a method and a device for calculating the engineering quantity of a space to be repaired, wherein the method for calculating the engineering quantity of the space to be repaired comprises the following steps: acquiring three-dimensional decoration parameters, arrangement setting parameters and decoration attribution sequences of decoration parts of a space to be decorated; determining intersected components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters; establishing a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement parameters, the decoration attribution sequence of each decoration part and the intersected components; determining a calculation method of the engineering quantity of the space to be repaired; and calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method. The three-dimensional decoration model obtained by implementing the method can reflect the complex deduction relation involved in the calculation amount service, so that the engineering amount obtained by implementing the method is more accurate.

Description

Method and device for calculating engineering quantity of space to be repaired

Technical Field

The invention relates to the technical field of building decoration, in particular to a method and a device for calculating the engineering quantity of a space to be decorated.

Background

The decoration can play a role in protecting the building, improving the use function of the building, beautifying the environment, improving the artistic effect of the building and the like. Before decoration, the amount of decoration works needs to be calculated, and decoration work is convenient to develop. The standard engineering quantity needs to be calculated by combining an international universal standard measuring method and a deduction rule, but the international universal standard measuring method and the deduction rule are complex, and the calculation process of the standard engineering quantity is complex by combining the international universal standard measuring method and the deduction rule, so that in the prior art, in order to calculate the engineering quantity more quickly, the engineering quantity is usually extracted through a three-dimensional model obtained by a three-dimensional design file directly, the engineering quantity obtained by the method is often pure model engineering quantity, the complex deduction relation related in the calculation quantity service cannot be embodied, and the calculation quantity result of subsequent calculation is easy to be inaccurate.

Disclosure of Invention

Therefore, the technical problem to be solved by the present invention is to overcome the defect in the prior art that the complex deduction relationship involved in the computation traffic cannot be reflected to cause inaccurate computation result, thereby providing a method and a device for computing the engineering quantity of the space to be repaired.

The invention provides a method for calculating the engineering quantity of a space to be repaired, which comprises the following steps: acquiring three-dimensional decoration parameters, arrangement setting parameters and decoration attribution sequences of decoration parts of a space to be decorated; determining intersected components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters; establishing a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement parameters, the decoration attribution sequence of each decoration part and the intersected components; determining a calculation method of the engineering quantity of the space to be repaired; and calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method.

Optionally, in the method for calculating the engineering quantity of the space to be decorated provided by the present invention, obtaining three-dimensional decoration parameters of the space to be decorated includes: acquiring three-dimensional decoration facade parameters and three-dimensional decoration plane parameters of a space to be decorated; and generating three-dimensional decoration parameters according to the three-dimensional decoration facade parameters and the three-dimensional decoration plane parameters.

Optionally, in the method for calculating the engineering quantity of the space to be decorated provided by the present invention, obtaining three-dimensional decoration plane parameters of the space to be decorated includes: obtaining a decoration table of a space to be decorated; and determining the parameters of the three-dimensional decoration plane according to the decoration table.

Optionally, in the method for calculating the engineering quantity of the space to be decorated provided by the present invention, obtaining three-dimensional decoration parameters of the space to be decorated includes: and matching the parameters of the preset decoration model with the preset model, and determining the three-dimensional decoration parameters according to the matching result.

Optionally, in the method for calculating the engineering quantity of the space to be repaired provided by the present invention, obtaining a decoration attribution sequence of each decoration part includes: acquiring a decoration attribution sequence of a decoration part in a space to be decorated and an application range of the decoration attribution sequence; and determining the decoration attribution sequence of each decoration part in the space to be decorated according to the decoration attribution sequence and the application range of the decoration attribution sequence.

Optionally, in the method for calculating the engineering quantity of the space to be repaired provided by the present invention, the step of determining the method for calculating the engineering quantity of the space to be repaired includes: acquiring current position information of a space to be decorated; and determining a calculation method corresponding to the current position information according to the current position information and a preset standard measurement method library, wherein the preset standard measurement method library is used for storing the calculation methods corresponding to different areas.

Optionally, in the method for calculating the engineering quantity of the space to be decorated provided by the present invention, the step of calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method includes: determining a member to be decorated in a space to be decorated according to the arrangement setting parameters, the intersected members and the decoration attribution sequence in the three-dimensional decoration model; determining decoration parameters of each component to be decorated according to the three-dimensional decoration parameters in the three-dimensional decoration model; and calculating the project amount of the space to be decorated according to the decoration parameters of the components to be decorated in the space to be decorated and the calculation method.

A second aspect of the present invention provides an engineering quantity calculation apparatus for a space to be repaired, including: the parameter acquisition module is used for acquiring three-dimensional decoration parameters, arrangement setting parameters and decoration attribution sequences of decoration parts of the space to be decorated; the intersecting component determining module is used for determining intersecting components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters; the three-dimensional decoration model building module is used for building a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement setting parameters, the decoration attribution sequence of each decoration part and the intersected components; the algorithm determining module is used for determining a calculation method of the engineering quantity of the space to be repaired; and the engineering quantity calculation module is used for calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method.

A third aspect of the present invention provides a computer apparatus comprising: at least one processor; and a memory communicatively coupled to the at least one processor; the memory stores instructions executable by the at least one processor, and the instructions are executed by the at least one processor so as to execute the engineering quantity calculation method for the space to be repaired according to the first aspect of the present invention.

A fourth aspect of the present invention provides a computer-readable storage medium storing computer instructions for causing a computer to execute the method for calculating the engineering quantity of a space to be decorated according to the first aspect of the present invention.

The technical scheme of the invention has the following advantages:

1. the invention provides a method for calculating the engineering quantity of a space to be decorated, which comprises the steps of firstly constructing a three-dimensional decoration model of the space to be decorated and determining the calculation method of the engineering quantity, then calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model of the space to be decorated and the calculation method, because the three-dimensional decoration model of the space to be decorated in the invention is obtained by the three-dimensional decoration parameters, the arrangement setting parameters and the decoration attribution sequence of each part of the space to be decorated, and the components intersected in the space to be repaired are established, and the decoration attribution sequence of the components intersected in the space to be repaired and each part is an important factor influencing the amount of engineering required to be reduced, therefore, the three-dimensional decoration model created according to the decoration attribution sequence of each part and the intersected components in the space to be decorated can embody the complex deduction relation involved in the calculation amount service, therefore, the engineering quantity calculated by the method for calculating the engineering quantity of the space to be repaired provided by the invention is more accurate.

2. According to the method for calculating the engineering quantity of the space to be decorated, when the decoration attribution sequence of each decoration part is obtained, the decoration attribution sequence of each decoration part can be directly obtained according to the decoration attribution sequence of one decoration part in the space to be decorated and the application range of the decoration attribution sequence, the decoration attribution sequence of each decoration part does not need to be modified one by one, and the construction speed of a three-dimensional decoration model is improved.

3. According to the method for calculating the engineering quantity of the space to be decorated, when the method for calculating the engineering quantity is determined, the current position information of the space to be decorated is obtained, and then the calculation method corresponding to the current position is determined according to the current position information and the preset standard measurement method library. Because different areas correspond to different calculation methods, and the setting of the calculation methods is complex, the calculation of the engineering quantity is simpler by determining the calculation method through the preset standard measurement method library.

4. The invention provides a device for calculating the engineering quantity of a space to be decorated, which comprises a three-dimensional decoration model of the space to be decorated and a calculation method for determining the engineering quantity, then calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model of the space to be decorated and the calculation method, because the three-dimensional decoration model of the space to be decorated in the invention is obtained by the three-dimensional decoration parameters, the arrangement setting parameters and the decoration attribution sequence of each part of the space to be decorated, and the components intersected in the space to be repaired are established, and the decoration attribution sequence of the components intersected in the space to be repaired and each part is an important factor influencing the amount of engineering required to be reduced, therefore, the three-dimensional decoration model created according to the decoration attribution sequence of each part and the intersected components in the space to be decorated can embody the complex deduction relation involved in the calculation amount service, therefore, the engineering quantity calculated by the device for calculating the engineering quantity of the space to be repaired provided by the invention is more accurate.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a flowchart illustrating a method for calculating the engineering quantity of a space to be finished according to an embodiment of the present invention;

FIG. 2 is a schematic view of one of the trim portions in an embodiment of the present invention;

FIG. 3 is a schematic diagram of the present invention in which the decoration attribution sequence is set as a wall, a column, and a beam;

FIG. 4 is a schematic diagram of the present invention in which the decoration attribution order is set as a column, a beam, and a wall;

FIGS. 5 to 10 are flowcharts showing a concrete example of a method for calculating the engineering quantity of a space to be finished according to the embodiment of the present invention;

FIG. 11 is a schematic block diagram showing a concrete example of the work amount calculating device of the space to be finished according to the embodiment of the present invention;

fig. 12 is a functional block diagram of a computer device provided in an embodiment of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. 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.

In the description of the present invention, it should be noted that the technical features related to the different embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other.

Example 1

The embodiment of the invention provides a method for calculating the engineering quantity of a space to be repaired, which comprises the following steps of:

step S11: and acquiring three-dimensional decoration parameters, arrangement setting parameters and decoration attribution sequences of decoration parts of the space to be decorated.

In a specific embodiment, the space to be decorated refers to the space to be decorated, wherein the decoration engineering quantity needs to be calculated;

the three-dimensional decoration parameters of the space to be decorated comprise plane parameters and vertical surface parameters of each decoration in the space to be decorated, for example, the decoration in the space to be decorated comprises ground, water proofing, skirting, wall surfaces, ceilings, suspended ceilings and the like, and the three-dimensional decoration parameters comprise the thickness and the height of the skirting; the decoration thickness, length, width and the like of the ground;

the arrangement setting parameters of the space to be repaired refer to the decoration of each position in the space to be decorated, for example, the arrangement setting parameters may be set by using basic members such as beams, columns, wall piles and the like in the space to be repaired as reference objects, and in a specific embodiment, the arrangement setting parameters may include: the side decoration of the top beam is set as a wall surface, the bottom decoration of the lower plate beam is set as a ceiling, the side decoration of the waist beam is set as a wall surface, the top decoration of the bottom beam is set as a wall surface, the side decoration of the bottom beam is set as a wall surface, and the like.

The decoration attribution sequence of each part of the space to be decorated refers to the priority sequence of each building component when the part to be decorated is crossed with a plurality of building components, the component to which decoration belongs can be determined according to the decoration attribution sequence of each part, and different decoration attribution sequences have influence on the amount of work to be deducted, so that the amount of work of the space to be decorated is indirectly influenced. For example, as shown in fig. 2, there is an intersection of three building components of beam 1, column 2, and wall 3, fig. 3 is a schematic view when the decoration home sequence is set as wall 3, column 2, and beam 1 from front to back, and fig. 4 is a schematic view when the decoration home sequence is set as column 2, beam 1, and wall 3 from front to back. In a specific embodiment, the deduction rule of the calculated engineering quantities of different regions includes the definition of the decoration attribution, and when the intersection of different building components exists in the space to be decorated, the building component to which the decoration of the intersection belongs can be determined through the definition of the decoration attribution in the deduction rule. However, since the definition of the decoration attribution included in the deduction rule may not meet the requirement of the user, the decoration attribution sequence may be set in a customized manner, so that the created three-dimensional decoration model and the finally calculated engineering quantity meet the requirement of the user.

Step S12: and determining intersected components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters.

In a specific embodiment, the decorations at various positions in the space to be decorated can be determined through the arrangement and setting parameters, so that the intersection parts among the decorations and the intersection parts of the decorations and the basic members in the space to be decorated are determined as the intersected members, for example, if the arrangement and setting parameters are 'setting the side decoration of the top beam as a wall surface', the intersection parts of the top beam and the wall surface are the intersected members, and on the basis of determining the intersected members, the three-dimensional parameters of the intersected members can be determined according to the three-dimensional decoration parameters.

For example, in fig. 2, the intersecting members in the space to be serviced include a beam 1 and two columns 2. In the calculation of the engineering quantity, the crossed members in the space to be repaired are important factors influencing the reduction of the engineering quantity.

Step S13: and creating a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement parameters, the decoration attribution sequence of each decoration part and the intersected components.

In a specific embodiment, the layout setting parameters and the decoration attribution sequence of each part may be default values, and if the default layout setting parameters and the decoration attribution sequence of each part do not meet the user requirements, the user may customize the layout setting parameters and the decoration attribution sequence of each part.

Step S14: and determining the engineering quantity of the space to be repaired.

In a specific embodiment, a user can input a calculation method of the engineering quantity, but since the calculation method of the engineering quantity and the deduction rule are complex and different calculation methods exist in different regions, in order to reduce the burden of the user, the corresponding calculation method can be matched through the position information input by the user in the embodiment of the invention.

Step S15: and calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model of the space to be decorated and the calculation method.

The invention provides a method for calculating the engineering quantity of a space to be decorated, which comprises the steps of firstly constructing a three-dimensional decoration model of the space to be decorated, determining a calculation method of the engineering quantity, and then calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model, the calculation method and a deduction rule of the space to be decorated .

In an alternative embodiment, as shown in fig. 5, the method for calculating the engineering quantity of the space to be repaired includes:

step S21: and acquiring the arrangement setting parameters of the space to be decorated and the decoration attribution sequence of each decoration part. Step S21 is a step of obtaining the layout setting parameters and the decoration attribution sequence of each decoration part in step S11, and the layout setting parameters and the decoration attribution sequence of each decoration part may be default values or may be manually input by a human.

Step S22: and acquiring three-dimensional decoration facade parameters and three-dimensional decoration plane parameters of the space to be decorated.

In a specific embodiment, the three-dimensional decoration facade parameters and the three-dimensional decoration plane parameters of the space to be decorated can be manually input by a user, the information input by the user further comprises decoration drawings, the decoration drawings are two-dimensional images, and the user can further input the three-dimensional decoration plane parameters of the space to be decorated by taking the decoration drawings as references.

In a specific embodiment, when obtaining the three-dimensional decoration facade parameters, a preset three-dimensional decoration facade parameter drawing interface is output first, and a user inputs the three-dimensional decoration facade parameters through the preset three-dimensional decoration facade parameter drawing interface.

Step S23: and generating three-dimensional decoration parameters according to the three-dimensional decoration facade parameters and the three-dimensional decoration plane parameters.

In a specific embodiment, the three-dimensional decoration parameters are three-dimensional coordinates of each decoration in the space to be decorated according to the three-dimensional decoration facade parameters and the three-dimensional decoration plane parameters.

The steps S22 and S23 are a specific implementation of the step S11 of obtaining three-dimensional decoration parameters of the space to be decorated.

Step S24: and determining intersected components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters. The details refer to the description in step S12 described above.

Step S25: and creating a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement parameters, the decoration attribution sequence of each decoration part and the intersected components. The details refer to the description in step S13 described above.

Step S26: and determining the engineering quantity of the space to be repaired. The details refer to the description in step S14 described above.

Step S27: and calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method. The details refer to the description in step S15 described above.

In an alternative embodiment, as shown in fig. 6, the method for calculating the engineering quantity of the space to be repaired includes:

step S31: and acquiring the arrangement setting parameters of the space to be decorated and the decoration attribution sequence of each decoration part. The details refer to the description in step S21 described above.

Step S32: and acquiring a decoration table of the space to be decorated.

In one embodiment, the trim table defines the trim plane parameters, as shown in table 1:

TABLE 1

Step S33: and determining the parameters of the three-dimensional decoration plane according to the decoration table.

In the embodiment of the invention, the three-dimensional decoration plane parameters are obtained by identifying the decoration table, so that errors caused by manually inputting the decoration parameters are reduced.

In a specific embodiment, the decoration table may include an association relationship between decoration and a room, the association relationship between decoration and the room provides an application range of decoration, and if the decoration table includes the association relationship between decoration and the room, the three-dimensional decoration model of the space to be decorated can be quickly obtained by stippling room arrangement decoration when the three-dimensional decoration model is established. For example, in the above-mentioned decoration table, the floor decoration associated with the "studio" is "25 mm thick, cement mortar is leveled, anti-corrosion paint is added", the skirting is "20 × 100mm, cement mortar is plastered", the wall decoration is "15 mm thick, cement mortar is plastered, latex paint is added", the ceiling decoration is "6 mm thick, quick-drying putty is plastered, latex paint is added", and all the rooms named as "studio" in the project can be arranged with all the decorations.

The steps S32 and S33 are a specific implementation manner of obtaining the three-dimensional decoration plane parameters of the space to be decorated in the step S22.

Step S34: and acquiring three-dimensional decoration facade parameters of the space to be decorated. Step S34 is the step of obtaining the three-dimensional decoration facade parameters of the space to be decorated in the step S22. See the description in step S22 above for details.

Step S35: and generating three-dimensional decoration parameters according to the three-dimensional decoration facade parameters and the three-dimensional decoration plane parameters. See the description in step S23 above for details.

Step S36: and determining intersected components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters. The details refer to the description in step S12 described above.

Step S37: and creating a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement parameters, the decoration attribution sequence of each decoration part and the intersected components. The details refer to the description in step S13 described above.

Step S38: and determining the engineering quantity of the space to be repaired. The details refer to the description in step S14 described above.

Step S39: and calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method. The details refer to the description in step S15 described above.

In an alternative embodiment, as shown in fig. 7, the method for calculating the engineering quantity of the space to be repaired includes:

step S41: and acquiring the arrangement setting parameters of the space to be decorated and the decoration attribution sequence of each decoration part. The details refer to the description in step S21 described above.

Step S42: and matching the parameters of the preset decoration model with the preset template, and determining the three-dimensional decoration parameters according to the matching result. Step S42 is an implementation of the step S11 of obtaining three-dimensional decoration parameters of the space to be decorated.

In a specific embodiment, the preset decoration model is a three-dimensional model which can reflect plane parameters and vertical surface parameters of each decoration in a space to be decorated and obtained through any prior art, but the representation mode of data in the preset decoration model may be different from that of the three-dimensional decoration model in the application, so that the parameters extracted from the preset decoration model can be matched with the preset template, so that the parameters in the preset decoration model are formatted, and the preset template is used for formatting the parameters in the preset decoration model, so that the three-dimensional decoration parameters used in the application for creating the three-dimensional decoration model are obtained.

Step S43: and determining intersected components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters. The details refer to the description in step S12 described above.

Step S44: and creating a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement parameters, the decoration attribution sequence of each decoration part and the intersected components. The details refer to the description in step S13 described above.

Step S45: and determining the engineering quantity of the space to be repaired. The details refer to the description in step S14 described above.

Step S46: and calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method. The details refer to the description in step S15 described above.

In an alternative embodiment, as shown in fig. 8, the method for calculating the engineering quantity of the space to be repaired includes:

step S51: and acquiring three-dimensional decoration parameters and arrangement setting parameters of the space to be decorated. The step S51 is a step of acquiring the three-dimensional finishing parameters and the arrangement setting parameters in the above step S11. See step S11 above for details.

Step S52: and obtaining the decoration attribution sequence of a decoration part in the space to be decorated and the application range of the decoration attribution sequence.

Step S53: and determining the decoration attribution sequence of each decoration part in the space to be decorated according to the decoration attribution sequence and the application range of the decoration attribution sequence. Step S52 and step S53 are a specific embodiment of obtaining the decoration attribution sequence of each decoration part of the space to be decorated in step S11.

In a specific embodiment, the applicable range of the decoration belonging sequence can be determined according to the correlation between the decoration and the room, for example, if the decoration belonging sequence of a certain decoration part in the entrance hall is set as a column, a beam and a wall, the decoration belonging sequence of the part to be decorated where any two members of the column, the beam and the wall intersect in the decoration hall is the column, the beam and the wall. By the method, the decoration attribution sequence of each part to be decorated in the space to be decorated can be quickly determined, the decoration attribution sequence of each part to be decorated is prevented from being set one by one, and the speed of constructing the three-dimensional decoration model is increased.

Step S54: and determining intersected components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters. The details refer to the description in step S12 described above.

Step S55: and creating a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement parameters, the decoration attribution sequence of each decoration part and the intersected components. The details refer to the description in step S13 described above.

Step S56: and determining the engineering quantity of the space to be repaired. The details refer to the description in step S14 described above.

Step S57: and calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method, wherein the detailed contents refer to the description in the step S15.

In an alternative embodiment, as shown in fig. 9, the method for calculating the engineering quantity of the space to be repaired includes:

step S61: the three-dimensional decoration parameters, the arrangement setting parameters and the decoration attribution sequence of each decoration part of the space to be decorated are obtained, and the details refer to the description of the step S11.

Step S62: determining the intersected components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters, and the detailed content refers to the description of the step S12.

Step S63: and creating a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement setting parameters, the decoration attribution sequence of each decoration part and the intersected components, and the detailed content is referred to the description of the step S13.

Step S64: and acquiring the current position information of the space to be decorated.

In a specific embodiment, because the calculation methods corresponding to different regions are different, before determining the calculation method, the current position information of the space to be decorated needs to be obtained.

Step S65: and determining a calculation method corresponding to the current position information according to the current position information and a preset standard measurement method library, wherein the preset standard measurement method library is used for storing the calculation methods corresponding to different areas.

Step S66: and calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method, wherein the detailed content is described in the step S15.

In an alternative embodiment, as shown in fig. 10, the method for calculating the engineering quantity of the space to be repaired includes:

step S71: and acquiring three-dimensional decoration parameters, arrangement setting parameters and decoration attribution sequences of decoration parts of the space to be decorated. See the description of step S11 above for details.

Step S72: and determining intersected components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters. See the description of step S12 above for details.

Step S73: and creating a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement parameters, the decoration attribution sequence of each decoration part and the intersected components. See the description of step S73 above for details.

Step S74: and determining the engineering quantity of the space to be repaired. See the description of step S74 above for details.

Step S751: and determining the components to be decorated in the space to be decorated according to the arrangement setting parameters, the intersected components and the decoration attribution sequence in the three-dimensional decoration model.

In step S751, after determining a member in the space to be finished according to the arrangement setting parameters, for a member in the space to be finished which does not form an intersection with any other member, the member may be directly determined as the member to be finished; for the position where at least two components intersect in the space to be decorated, the construction to be decorated needs to be determined according to the decoration attribution sequence and the intersected components in the space to be decorated.

For example, in the model shown in fig. 3, after determining that the arrangement setting parameter is "set the side finishing of the roof beam as a wall surface", it may be further determined that there is an intersection of three building members of the beam 1, the column 2, and the wall 3, and after determining that the finishing attribution order is the wall 3, the column 2, and the beam 1 from front to back, it may be determined that the members to be finished in the area include only the wall 3.

In the model shown in fig. 4, after the arrangement setting parameter is determined as "setting the side finishing of the top beam as a wall surface", it can be further determined that the intersection exists among the three building components of the beam 1, the column 2 and the wall 3, and after the attribution sequence of the finishing is determined as the column 2, the beam 1 and the wall 3 from front to back, it can be determined that the components to be finished in the area include the column 1, the column 2 and the wall 3.

Step S752: and determining decoration parameters of the components to be decorated according to the three-dimensional decoration parameters in the three-dimensional decoration model.

In a specific embodiment, for a component which does not form an intersection with any other component, the parameter representing the component in the three-dimensional decoration parameter can be directly used as the decoration parameter of the component to be decorated, for example, if the ground in the space to be decorated does not intersect with other components, the length and the width of the ground in the three-dimensional decoration parameter can be used as the decoration parameter of the component to be decorated.

For the position where at least two components intersect, after the components to be decorated are determined according to the intersected components and the decoration attribution sequence, decoration parameters of the components to be decorated need to be determined according to parameters which are used for representing the intersected components in the three-dimensional decoration parameters.

For example, in the model shown in fig. 3, after determining that the member to be finished is the wall 3, finishing parameters of the member to be finished are determined according to the length and height of the wall 3 among the three-dimensional finishing parameters.

In the model shown in fig. 4, after determining that the member to be decorated sequentially comprises a column 2, a beam 1 and a wall 3, firstly determining decoration parameters of the column 2 to be decorated and constructed according to the width and height of the column 2 in the three-dimensional decoration parameters, then determining decoration parameters of the beam 1 of the member to be decorated according to the length, width and height of the beam 1 and the width of the column 2 in the three-dimensional decoration model, and finally determining decoration parameters of the wall 3 of the member to be decorated according to the height of the beam 1, the width of the column 2 and the length and height of the wall 3 in the three-dimensional decoration parameters.

Step S753: and calculating the project amount of the space to be decorated according to the decoration parameters of the components to be decorated in the space to be decorated and the calculation method.

In a specific embodiment, after the members to be decorated and the decoration parameters of the members to be decorated are determined, the engineering quantity of the members to be decorated is calculated according to the calculation method and the decoration parameters of the members to be decorated, then the sum of the engineering quantities of all the members to be decorated in the space to be decorated is calculated, and finally the engineering quantity of the space to be decorated is obtained.

In an optional embodiment, after the engineering quantity of the space to be detected is obtained by performing the calculation in any one of the above embodiments, it may be further determined whether the engineering quantity meets a preset condition, where the preset condition may be set according to an actual requirement of a user, for example, an engineering quantity threshold may be set, when the engineering quantity is greater than the engineering quantity threshold, it is determined that the engineering quantity does not meet the preset condition, and when the engineering quantity is less than or equal to the engineering quantity threshold, it is determined that the engineering quantity meets the preset condition.

And if the engineering quantity does not meet the preset condition, the three-dimensional decoration parameters, the arrangement setting parameters and the decoration attribution sequence of each decoration part of the space to be decorated can be obtained again, a new three-dimensional decoration model is created again, and the engineering quantity of the space to be decorated is calculated according to the new three-dimensional decoration model.

In a specific embodiment, different layout setting parameters and different decoration attribution sequences all affect the finally calculated engineering quantity, so that when the calculated engineering quantity does not meet preset conditions, the layout setting parameters and the decoration attribution sequences of all decoration parts can be obtained again, a new three-dimensional decoration model is created, and the engineering quantity is calculated again according to the new three-dimensional decoration model.

In an alternative embodiment, the calculated engineering quantity does not satisfy the preset condition, which may be caused by a selection error of the calculation method, so that the calculation method of the engineering quantity may be re-input, and the engineering quantity of the model to be decorated is calculated according to the decoration model and the re-acquired calculation method.

Example 2

An embodiment of the present invention provides a device for calculating an engineering quantity of a space to be repaired, as shown in fig. 11, including:

the parameter obtaining module 11 is configured to obtain three-dimensional decoration parameters, arrangement setting parameters, and a decoration attribution sequence of each decoration part of the space to be decorated, and the detailed description is described in the above embodiment 1 for the step S11.

The intersecting member determining module 12 is configured to determine intersecting members in the space to be decorated according to the three-dimensional decoration parameters, the arrangement setting parameters, and the decoration attribution sequence of each decoration part, and the detailed description is described in the above embodiment 1 for step S12.

The three-dimensional decoration model building module 13 is configured to create a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement setting parameters, the decoration attribution sequence of each decoration part, and the intersected members, and the detailed description is described in the above embodiment 1 for step S13.

The algorithm determining module 14 is a computing method for determining the engineering quantity of the space to be repaired, and the detailed description is given in the above embodiment 1 to the description of the step S14.

The engineering quantity calculating module 15 is configured to calculate the engineering quantity of the space to be repaired according to the three-dimensional decoration model and the calculating method, and the detailed description is described in the above embodiment 1 for step S15.

The invention provides a device for calculating the engineering quantity of a space to be decorated, which comprises a three-dimensional decoration model of the space to be decorated and a calculation method for determining the engineering quantity, then calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model of the space to be decorated and the calculation method, because the three-dimensional decoration model of the space to be decorated in the invention is obtained by the three-dimensional decoration parameters, the arrangement setting parameters and the decoration attribution sequence of each part of the space to be decorated, and the components intersected in the space to be repaired are established, and the decoration attribution sequence of the components intersected in the space to be repaired and each part is an important factor influencing the amount of engineering required to be reduced, therefore, the three-dimensional decoration model created according to the decoration attribution sequence of each part and the intersected components in the space to be decorated can embody the complex deduction relation involved in the calculation amount service, therefore, the engineering quantity calculated by the engineering quantity calculating device of the space to be repaired provided by the invention is more accurate.

Example 3

An embodiment of the present invention provides a computer device, as shown in fig. 12, the computer device mainly includes one or more processors 31 and a memory 32, and fig. 12 illustrates one processor 31 as an example.

The computer device may further include: an input device 33 and an output device 34.

The processor 31, the memory 32, the input device 33 and the output device 34 may be connected by a bus or other means, and the bus connection is exemplified in fig. 12.

The processor 31 may be a Central Processing Unit (CPU). The Processor 31 may also be other general purpose processors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other Programmable logic devices, discrete Gate or transistor logic devices, discrete hardware components, or combinations thereof. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The memory 32 may include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created from use of the engineering amount calculation device of the space to be repaired, and the like. Further, the memory 32 may include high speed random access memory, and may also include non-transitory memory, such as at least one magnetic disk storage device, flash memory device, or other non-transitory solid state storage device. In some embodiments, the memory 32 may optionally include memory located remotely from the processor 31, and these remote memories may be connected over a network to the work volume calculation device for the space to be finished. The input device 33 may receive a calculation request (or other numerical or character information) input by a user and generate a key signal input related to the engineering quantity calculation device of the space to be repaired. The output device 34 may include a display device such as a display screen for outputting the calculation result.

Example 4

An embodiment of the present invention provides a computer-readable storage medium, where the computer-readable storage medium stores computer instructions, and the computer-readable storage medium stores computer-executable instructions, where the computer-executable instructions may execute the method for calculating the engineering quantity of the space to be repaired in any method embodiment described above. The storage medium may be a magnetic Disk, an optical Disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a Flash Memory (Flash Memory), a Hard Disk (Hard Disk Drive, abbreviated as HDD) or a Solid State Drive (SSD), etc.; the storage medium may also comprise a combination of memories of the kind described above.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (10)

1. A method for calculating the engineering quantity of a space to be repaired is characterized by comprising the following steps:

acquiring three-dimensional decoration parameters, arrangement setting parameters and decoration attribution sequences of decoration parts of a space to be decorated;

determining intersected members in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters;

establishing a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement setting parameters, the decoration attribution sequence of each decoration part and the intersected components;

determining a calculation method of the engineering quantity of the space to be repaired;

and calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method.

2. The method for calculating the engineering quantity of the space to be decorated according to claim 1, wherein the obtaining of the three-dimensional decoration parameters of the space to be decorated comprises:

acquiring three-dimensional decoration plane parameters and three-dimensional decoration facade parameters of the space to be decorated;

and generating the three-dimensional decoration parameters according to the three-dimensional decoration plane parameters and the three-dimensional decoration facade parameters.

3. The method for calculating the engineering quantity of the space to be decorated according to claim 2, wherein the step of obtaining the three-dimensional decoration plane parameters of the space to be decorated comprises the steps of:

acquiring a decoration table of the space to be decorated;

and determining the three-dimensional decoration plane parameters according to the decoration table.

4. The method for calculating the engineering quantity of the space to be decorated according to claim 1, wherein the obtaining of the three-dimensional decoration parameters of the space to be decorated comprises:

and matching parameters in a preset decoration model with a preset template, and determining the three-dimensional decoration parameters according to a matching result.

5. The method for calculating the engineering quantity of a space to be decorated according to claim 1, wherein the step of obtaining the decoration attribution sequence of each decoration part comprises:

acquiring a decoration attribution sequence of a decoration part in the space to be decorated and an application range of the decoration attribution sequence;

and determining the decoration attribution sequence of each decoration part in the space to be decorated according to the decoration attribution sequence and the application range of the decoration attribution sequence.

6. The method for calculating the engineering quantity of the space to be decorated according to claim 1, wherein the step of determining the method for calculating the engineering quantity of the space to be decorated includes:

acquiring current position information of the space to be decorated;

and determining a calculation method corresponding to the current position information according to the current position information and a preset standard measurement method library, wherein the preset standard measurement method library is used for storing calculation methods corresponding to different areas.

7. The method for calculating the engineering quantity of the space to be decorated according to claim 1, wherein the step of calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method comprises:

determining the components to be decorated in the space to be decorated according to the arrangement setting parameters, the intersected components and the decoration attribution sequence in the three-dimensional decoration model;

determining decoration parameters of the members to be decorated according to the three-dimensional decoration parameters in the three-dimensional decoration model;

and calculating the project amount of the space to be decorated according to the decoration parameters of the members to be decorated in the space to be decorated and the calculation method.

8. An engineering quantity calculation device of a space to be repaired is characterized by comprising:

the parameter acquisition module is used for acquiring three-dimensional decoration parameters, arrangement setting parameters and decoration attribution sequences of decoration parts of the space to be decorated;

the intersecting component determining module is used for determining intersecting components in the space to be decorated according to the three-dimensional decoration parameters and the arrangement setting parameters;

the three-dimensional decoration model building module is used for building a three-dimensional decoration model according to the three-dimensional decoration parameters, the arrangement setting parameters, the decoration attribution sequence of each decoration part and the intersected components;

the algorithm determining module is used for determining a calculation method of the engineering quantity of the space to be repaired;

and the engineering quantity calculation module is used for calculating the engineering quantity of the space to be decorated according to the three-dimensional decoration model and the calculation method.

9. A computer device, comprising:

at least one processor; and a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to perform the method of engineering a space to be serviced according to any of claims 1-7.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium stores computer instructions for causing the computer to execute the engineering quantity calculation method of a space to be decorated according to any one of claims 1 to 7.

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