CN107657139B - Indoor light steel keel leveling simulation method, equipment, system and storage medium - Google Patents

Abstract

The invention discloses a leveling simulation method, equipment, a system and a storage medium for an indoor light steel keel, wherein the leveling simulation method for the indoor light steel keel obtains pre-stored leveling parameters of the light steel keel; then displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in the interactive interface according to the keel pattern selected by the user; then receiving a parameter setting instruction input by a user, and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction; and generating a corresponding light steel keel structure preview model at the interactive interface according to the set light steel keel leveling parameters. The leveling process of the light steel keel can be simulated and displayed accurately in real time, and the efficiency of indoor decoration design and the accuracy of leveling construction are improved.

Description

Indoor light steel keel leveling simulation method, equipment, system and storage medium

Technical Field

The invention relates to the technical field of design tool software, in particular to a leveling simulation method, equipment, a system and a storage medium for an indoor light steel keel.

Background

With the continuous progress of digitization and informatization, designers in the existing construction design usually apply the existing design tool software in the architectural decoration field to design, and accordingly generate the design result which is finally presented in the form of electronic data.

Among the numerous three-dimensional design software tools, Sketchup is a set of design tools directly oriented to the design solution creation process. The creation process of the design tool can fully express the thought of a designer and completely meet the requirement of instant communication with a client, so that the designer can directly carry out very intuitive conception on a computer, and the design tool is an excellent tool for creating a three-dimensional building design scheme.

Based on SketchUp software, at present, because the leveling construction of a decoration structural surface has errors, and a drawing cannot accurately reflect the actual structural size, the size of a decoration material processed according to original paper has larger errors with the site, an intelligent design method formed by combining surface layer composition information and base layer composition information of indoor decoration is not available, and the design work is inconvenient.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide a leveling simulation method, equipment, a system and a storage medium for indoor light steel keels, which can simulate and display the leveling process of the light steel keels in real time and accurately, and improve the efficiency of indoor decoration design and the accuracy of leveling construction.

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

an indoor light steel keel leveling simulation method comprises the following steps:

obtaining prestored leveling parameters of the light steel keel;

displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in an interactive interface according to the keel pattern selected by a user;

receiving a parameter setting instruction input by a user, and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction;

and generating a corresponding light steel keel structure preview model at the interactive interface according to the set light steel keel leveling parameters.

In the indoor light steel keel leveling simulation method, the light steel keel leveling parameters comprise base layer keel parameters and base layer plate parameters.

In the indoor light steel keel leveling simulation method, the step of displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in an interactive interface according to the keel pattern selected by a user comprises the following steps:

acquiring a keel pattern input by a user, wherein the keel pattern comprises a U-shaped keel and a clamping keel;

displaying the base keel parameters of the corresponding keel patterns for the user to set in the base keel parameter interaction area according to the keel patterns selected by the user;

and displaying the base plate parameters set by a user in a base plate parameter interaction area.

In the indoor light steel keel leveling simulation method, the step of displaying the base layer keel parameters corresponding to the keel patterns set by the user in the base layer keel parameter interaction area according to the keel patterns selected by the user specifically comprises the following steps:

when a user selects the U-shaped keel, displaying a first base keel parameter for the user to set in a base keel parameter interaction area;

when the user selects the card type keel, the parameters of the second base keel set by the user are displayed in the interaction area of the parameters of the base keel.

In the indoor light steel keel leveling simulation method, the parameters of the first base layer keel comprise a fixing piece, a ceiling keel, a vertical keel, a transverse keel, short edge arrangement, corner deviation, tolerance, ceiling elevation, ceiling extending and finished surface thickness;

the parameters of the second base layer keel comprise support, fixing, vertical keels, transverse keels, vertical support keels, corner keels, ceiling elevation, ceiling extending-in and finished surface thickness;

the parameters of the base plate comprise the type of a cover plate, a surface treatment mode, a corner connection mode, external corner reinforcement, hand-drawing parameters and remark instructions.

In the indoor light steel keel leveling simulation method, the step of receiving a parameter setting instruction input by a user and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction comprises the following steps:

receiving a parameter setting instruction input by a user, wherein the parameter setting instruction comprises a selection instruction and a character instruction;

and setting the parameters of the base keel and the parameters of the base plate according to the selection instruction and the character instruction.

In the indoor light gauge steel leveling simulation method, the step of generating a corresponding light gauge steel structure preview model at the interaction interface according to the set light gauge steel leveling parameters specifically includes:

and displaying a light steel keel structure model correspondingly generated according to the parameters of the base keel and the parameters of the base plate on a structure preview window of the interactive interface.

The utility model provides an indoor light gauge steel analog equipment of making level, it includes: a processor, a memory, and a communication bus;

the memory has stored thereon a computer readable program executable by the processor;

the communication bus realizes connection communication between the processor and the memory;

the processor, when executing the computer readable program, implements the steps in the indoor light steel keel leveling simulation method as described above.

A computer readable storage medium storing one or more programs, the one or more programs being executable by one or more processors to implement the steps in the indoor light steel keel leveling simulation method as described above.

An indoor light steel keel leveling simulation system comprises a database and the indoor light steel keel leveling simulation equipment;

and the database is used for storing the leveling parameters of the light steel keel.

The indoor light steel keel leveling simulation equipment is used for acquiring light steel keel leveling parameters in the database and displaying the light steel keel leveling parameters corresponding to keel styles in a preset mode in an interactive interface according to the keel styles selected by users; receiving a parameter setting instruction input by a user, and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction; and generating a corresponding light steel keel structure preview model at the interactive interface according to the set light steel keel leveling parameter.

Compared with the prior art, in the indoor light steel keel leveling simulation method, the indoor light steel keel leveling simulation equipment, the indoor light steel keel leveling simulation system and the storage medium, the indoor light steel keel leveling simulation method obtains the pre-stored light steel keel leveling parameters; then displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in the interactive interface according to the keel pattern selected by the user; then receiving a parameter setting instruction input by a user, and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction; and generating a corresponding light steel keel structure preview model at the interactive interface according to the set light steel keel leveling parameters. The leveling process of the light steel keel can be simulated and displayed accurately in real time, and the efficiency of indoor decoration design and the accuracy of leveling construction are improved.

Drawings

FIG. 1 is a flow chart of an indoor light steel keel leveling simulation method provided by the invention;

fig. 2 is a flowchart of step S20 in the indoor light gauge steel leveling simulation method provided by the present invention;

fig. 3 is a flowchart of step S30 in the indoor light gauge steel leveling simulation method provided by the present invention;

FIGS. 4-5 are schematic diagrams of an interactive interface according to a first embodiment of the present invention;

FIGS. 6 to 7 are schematic diagrams of an interactive interface according to a second embodiment of the present invention;

FIG. 8 is a diagram illustrating an interactive interface according to a third embodiment of the present invention;

FIG. 9 is a diagram illustrating an interactive interface according to a fourth embodiment of the present invention;

FIG. 10 is a schematic view of an operating environment of an exemplary embodiment of an indoor light gauge steel leveling simulation program according to the present invention;

FIG. 11 is a functional block diagram of a preferred embodiment of the system for installing an indoor light gauge steel leveling simulation program according to the present invention;

fig. 12 is a structural block diagram of the indoor light steel keel leveling simulation system provided by the invention.

Detailed Description

In view of the defects that the leveling construction of the building structure surface in the prior art has errors, the design drawing cannot accurately reflect the actual structure size and the like, the invention aims to provide a leveling simulation method, equipment, a system and a storage medium for indoor light steel keels, which can simulate and show the leveling process of the light steel keels in real time and accurately and improve the efficiency of indoor decoration design and the accuracy of the leveling construction.

In order to make the objects, technical solutions and effects of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Sketchup software is a very common 3D design tool with a very wide range of applications. But when carrying out indoor light gauge steel and looking for peacetime, because lack corresponding pertinence and set up, can't accurate reflection actual structure size for the construction of making level has the error, for the use of designer causes certain inconvenience. In order to further enable Sketchup software to better realize the leveling function of the indoor light steel keel, the leveling simulation method for the indoor light steel keel provided by the embodiment of the invention can be applied to realize the corresponding function on the basis of the Sketchup software.

Referring to fig. 1, the indoor light gauge steel leveling simulation method provided by the invention comprises the following steps:

and S10, obtaining prestored leveling parameters of the light steel keel.

In this embodiment, a database may be provided to pre-store the light gauge steel leveling parameters, so as to facilitate the calling and selection of subsequent users, and when the users perform indoor light gauge steel leveling simulation, the database may be used to obtain the light gauge steel leveling parameters, so as to facilitate the unified operation and management of all the light gauge steel leveling parameters, specifically, the light gauge steel leveling parameters include a base layer keel parameter and a base layer board parameter.

And S20, displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in the interactive interface according to the keel pattern selected by the user.

In this embodiment, after obtaining the prestored light gauge steel leveling parameters, the user may select a gauge steel style according to design requirements, and then display the leveling parameters of the light gauge steel corresponding to the gauge steel style in a preset form through an interactive interface, specifically, the interactive interface at least includes a base layer gauge steel parameter interactive area and a base layer plate parameter interactive area, so as to respectively display the base layer gauge steel parameters and the base layer plate parameters. Please refer to fig. 2, which is a flowchart of step S20 in the indoor light gauge steel leveling simulation method according to the present invention.

As shown in fig. 2, the step S20 includes:

s21, acquiring a keel pattern input by a user, wherein the keel pattern comprises a U-shaped keel and a clamping keel;

s22, displaying the base keel parameters of the corresponding keel patterns for the user to set in the base keel parameter interaction area according to the keel patterns selected by the user;

and S23, displaying the basal plate parameters for the user to set in the basal plate parameter interaction area.

That is, in this embodiment, the keel style selected by the user is obtained first, the keel style includes a U-shaped keel and a clip-type keel, the user can click through a pull-down frame style, and then the base layer keel parameters and the base layer board parameters corresponding to the keel style are respectively displayed in the corresponding area of the interactive interface according to the keel style selected by the user, so that the leveling parameters of the light gauge steel of different styles can be accurately and clearly displayed for the user, the user can conveniently select the parameters, and the efficiency and accuracy of indoor light gauge steel leveling simulation are improved.

Specifically, the step S22 specifically includes:

when a user selects the U-shaped keel, displaying a first base keel parameter for the user to set in a base keel parameter interaction area;

when the user selects the card type keel, the parameters of the second base keel set by the user are displayed in the interaction area of the parameters of the base keel.

In other words, in this embodiment, the parameters of the base-layer keel in different keel patterns are different, when a user selects the U-shaped keel, the parameters of the first base-layer keel of the U-shaped keel are displayed in the interaction area of the parameters of the base-layer keel, and when the user selects the clip-type keel, the parameters of the second base-layer keel of the clip-type keel are displayed in the interaction area of the parameters of the base-layer keel, and the parameters of the base-layer keel corresponding to the selected keel pattern are automatically displayed, so that confusion of the user when the parameters of the keel pattern are subsequently.

The first base layer keel parameters comprise a fixing piece, a ceiling keel, a vertical keel, a transverse keel, short edge arrangement, corner deviation, tolerance, ceiling elevation, ceiling extending and finishing surface thickness; the parameters of the second base layer keel comprise support, fixing, vertical keels, transverse keels, vertical support keels, corner keels, ceiling elevation, ceiling extending-in and finished surface thickness; the parameters of the base plate comprise the type of a cover plate, a surface treatment mode, a corner connection mode, external corner reinforcement, hand-drawing parameters and remark instructions.

And S30, receiving a parameter setting instruction input by a user, and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction.

In this embodiment, after the user has obtained the basic unit fossil fragments parameter and the basic unit board parameter of corresponding fossil fragments pattern on the interactive interface, can carry out the setting of each item parameter according to actual design demand is nimble, after the parameter setting instruction that the input corresponds, will be according to parameter setting instruction sets up each light gauge steel parameter of making level, and the implementation process that makes level is made level to audio-visual and accurate simulation light gauge steel for interior decoration's surface course constitution information and basic unit constitution information can effectively be combined together and realize the function of making level of quick accurate light gauge steel. Specifically, please refer to fig. 3, which is a flowchart of step S30 in the indoor light gauge steel leveling simulation method according to the present invention.

As shown in fig. 3, the step S30 includes:

s31, receiving a parameter setting instruction input by a user, wherein the parameter setting instruction comprises a selection instruction and a character instruction;

and S32, setting the parameters of the base keel and the parameters of the base plate according to the selection instruction and the character instruction.

Preferably, when the base keel parameters and the base plate parameters are displayed in a preset form in the interactive interface, the base keel parameters and the base plate parameters can be in a drop-down frame form or an input frame form, so that when a corresponding user inputs a parameter setting instruction, the parameter setting instruction comprises a selection instruction and a character instruction, namely when the base keel parameters and the base plate parameters displayed in the drop-down frame form are set, the user can click a drop-down frame button and then input the selection instruction in the following options, and when the base keel parameters and the base plate parameters displayed in the input frame form are set, the user needs to input the character instruction in the input frame to realize the flexible setting of various parameters.

Particularly, when a user selects the U-shaped keel and sets the distance size of the vertical keel to be larger than or equal to a preset value, the short edge setting is additionally displayed in the parameters of the first base layer keel, and if the distance size of the vertical keel is smaller than the preset value, the short edge setting is not displayed, namely, after the user selects the U-shaped keel and inputs a parameter setting instruction to set the size of the vertical keel, if the distance size of the vertical keel is larger than or equal to the preset value, the option of automatically displaying the short edge setting is additionally displayed in a parameter interaction area of the base layer keel so as to meet the construction specification and the design requirement, and preferably, the preset value is 300 mm.

And S40, generating a corresponding light steel keel structure preview model on the interactive interface according to the set light steel keel leveling parameters.

In this embodiment, after the user inputs a parameter setting instruction to set various light gauge steel leveling parameters, a preview model of the corresponding light gauge steel structure is visually generated on the interactive interface, specifically, a structure preview window is further provided on the interactive interface, the light gauge steel structure model generated according to the base layer keel parameters and the base layer plate parameters is displayed through the interface preview window, and when the user arbitrarily modifies the base layer keel parameters and the base layer plate parameters, the preview model of the light gauge steel structure is updated in real time, so that the user can obtain the latest and accurate leveling simulation result.

In order to better describe the process for setting the leveling parameters of the light gauge steel in the indoor light gauge steel leveling simulation method provided by the invention, the process for setting the leveling parameters of the light gauge steel is described in detail by taking an application example in combination with fig. 4 to 9.

As shown in fig. 4, in the SketchUp software, a "courtyard DFC" function module combination is added, the "courtyard DFC" has a "quick leveling" function, a "light gauge steel" function module is arranged in a next-level menu, and a user clicks a "light gauge steel" function option to display an interactive interface as shown in fig. 4, where the interactive interface includes a base layer keel parameter interactive area and a base layer plate parameter interactive area, the base layer keel parameter interactive area displays base layer keel parameters for the user to set, and the base layer plate parameter interactive area displays base layer plate parameters for the user to set.

Particularly, the fossil fragments pattern is including two kinds, U type fossil fragments and card formula fossil fragments, and the user can select on interactive interface, and the two is also different because of the different basic unit fossil fragments parameter of form, as shown in fig. 4 and 5, when the user selects U type fossil fragments, show the first basic unit fossil fragments parameter that supplies the user to set up in the mutual regional show of basic unit fossil fragments parameter, wherein, first basic unit fossil fragments parameter includes mounting, world fossil fragments, vertical fossil fragments, horizontal fossil fragments, short edge setting, corner skew, tolerance, furred ceiling elevation, stretch into the furred ceiling and accomplish 10 options altogether of face thickness.

The mounting includes specification parameter, interval and apart from the wall distance, wherein the supporting mounting of U type fossil fragments also is U type mounting, divide two kinds of specifications, one is "U type 50", one is "U type 60", fixed interval construction standard defaults to 1200mm, the user can be according to actual conditions through the specification parameter and the interval of pulldown frame selection mounting, the mounting is apart from the default 50mm of wall distance, the user can be according to the design needs input in the input box apart from wall data.

The universal keel comprises three parameters, namely specification, fixing mode and fixing position of the universal keel. The two specifications of the Tiandi keel are respectively U50X20 and U60X 27; the fixing mode comprises a 'nail shooting' and an 'expansion bolt'; according to different fixed positions, the floor and the wall are selected, and a user can directly click a drop-down box key and input a selection instruction in a drop-down box option.

The vertical keel comprises two parameters of vertical keel specification and vertical keel spacing, according to the actual engineering condition, the vertical keel specification mainly adopts 'C50 x 20' and 'C60 x 27', the vertical keel spacing is '400' and '600', and the user selects through the drop-down frame.

The transverse keel has an optional function, if the design needs, a user can select the option and then set the specification, the specification is provided with two types of C50x20 and C60x27, and the user selects the specification of the transverse keel through a pull-down frame.

The minor face sets up, according to construction standard and design requirement promptly, when the interval of vertical fossil fragments surpassed 300mm, will increase the minor face setting promptly. Therefore, when the vertical spacing of the light steel keels is larger than 300mm, the short edge setting is added to the first base layer keel parameter, the short edge setting is defaulted to be 'C50 x20 mm', and as shown in fig. 5, when the spacing is set to be 400mm, the short board setting is automatically added to the base layer keel parameter interaction area.

The corner offset is divided into two cases of 'offset' and 'vertex angle alignment', a user selects in a pull-down box according to requirements, and when the 'offset' option is selected, the user inputs the offset value in an offset value input box.

The tolerance is a corrected value because certain errors exist in the flatness and the verticality of the actual construction wall surface, and the error needs to be eliminated when the leveling is carried out on the ground and the wall surface, so that the leveling layer in the design drawing is consistent with the actual construction leveling layer, a corrected value is set to achieve the consistency of the actual construction surface size and the design drawing, and the problem that the drawing cannot accurately reflect the actual structure size is solved. The value may be user defined, for example, by 35 mm.

The furred ceiling elevation is the important index of making clear of vertical keel length, is input according to actual requirement by the user, and the furred ceiling elevation is 2800mm in this embodiment.

Stretch into the furred ceiling, main bone should stretch into the furred ceiling when looking for ordinary times according to national standard regulation wall, and this data is the length that vertical keel stretches into the furred ceiling, by user input data by oneself, and vertical keel stretches into furred ceiling 100mm in this embodiment.

The finishing surface is the thickness of the finished keel surface, and the wall surface leveling is constructed on the ground finishing surface, so that the size needs to be deducted when the keel and the decorative material on the keel are processed, the parameter is favorable for enhancing the accurate size of the keel, and the waste caused by the error in the construction process is solved; meanwhile, designers do not need to do auxiliary lines or auxiliary surfaces to finish the work, the work efficiency of designers is improved, the parameters are input by users, and the thickness of the finished surface is 35mm in the embodiment.

As shown in fig. 6 and 7, when the user selects the card type keel, the second base layer keel parameters for the user to set are displayed in the base layer keel parameter interaction area, wherein the second base layer keel parameters comprise 9 options of support, fixation, vertical keel, horizontal keel, vertical keel, corner keel, ceiling elevation, extension ceiling and finishing surface thickness.

The support is a support rod between the keel and the wall surface (ground), the keel is relatively fixed on a plane, and a user selects the keel in the prestored data, such as an m8 screw rod in the embodiment.

The fixing mainly refers to a fixing mode, generally adopts pull explosion, and other fixing modes can be selected.

The vertical keel comprises two parameters of a vertical keel specification and a vertical keel interval, the vertical keel specification mainly adopts 'DV 25X 20' and 'DV 50X 20' according to the actual engineering condition, the vertical keel interval is '400' and '600', and a user selects through a pull-down frame.

The transverse keel comprises two parameters of a transverse keel specification and a transverse keel spacing, the transverse keel specification mainly adopts 'C38' and 'C50' according to the actual engineering situation, the transverse keel spacing is commonly divided into '300', '400' and '600', and a user selects the transverse keel spacing through a pull-down frame.

The vertical support keel comprises two parameters of a vertical support keel specification and a vertical support keel spacing, wherein the vertical support keel specification mainly adopts C38 and C50, the vertical support keel spacing usually adopts 400 and 600, and a user selects the vertical support keel by a pull-down frame.

The corner offset is divided into two cases of 'offset' and 'vertex angle alignment', a user selects in a pull-down box according to requirements, and when the 'offset' option is selected, the user inputs the offset value in an offset value input box.

The furred ceiling elevation is the important index of making clear of vertical keel length, is input according to actual requirement by the user, and the furred ceiling elevation is 2800mm in this embodiment.

Stretch into the furred ceiling, main bone should stretch into the furred ceiling when looking for ordinary times according to national standard regulation wall, and this data is the length that vertical keel stretches into the furred ceiling, by user input data by oneself, and vertical keel stretches into furred ceiling 100mm in this embodiment.

The finishing surface is the thickness of the finished keel surface, and the wall surface leveling is constructed on the ground finishing surface, so that the size needs to be deducted when the keel and the decorative material on the keel are processed, the parameter is favorable for enhancing the accurate size of the keel, and the waste caused by the error in the construction process is solved; meanwhile, designers do not need to do auxiliary lines or auxiliary surfaces to finish the work, the work efficiency of designers is improved, the parameters are input by users, and the thickness of the finished surface is 35mm in the embodiment.

As shown in fig. 8 and 9, further, the parameters of the base plate include 6 options of cover plate type, surface treatment mode, corner connection mode, external corner reinforcement, hand-drawing parameters and remark explanation.

Wherein the cover panel option is used for defining the type of the cover panel, and the options of 'low density board', 'medium density board', 'high density board', 'plywood', 'multi-layer board', 'Ouchong board', 'flame retardant board' can also be defined by users. The specification parameters of the cover panel comprise 4 parameters of length, width, thickness and seam width. As shown in FIG. 8, the user clicks the "type" button to pop up the drop-down box, and can select a type of the cover panel from the drop-down box, input various specification parameters of the cover panel, click "confirm" to complete the setting after the selection and input is completed, or click "cancel" to reset. For example, in this embodiment, a medium density board having a length of 2400mm, a width of 1200mm, a thickness of 9mm, and a seam length of 2mm is used.

The surface treatment modes comprise 'fireproof coating', 'dampproof coating', 'anticorrosive coating' and 'mothproof coating', and can also be customized according to the design intention of a user, as shown in fig. 9, the user pops up a check box after clicking a 'treatment mode' button, can select one or more treatment modes from the options, inputs the repetition times of each treatment mode, clicks 'confirm' to complete the setting after finishing the selection, or clicks 'cancel' to reset.

The corner connection has two corner connection forms, and as shown in the content of the functional block diagram, a user can directly click and select a required form to complete the setting.

The external corner is consolidated, and according to the standard requirement, the external corner needs to be consolidated, and wherein the angle steel is used commonly to the reinforcing material, chooses for use according to the on-the-spot condition by the user, and direct reinforcing material and the size that input corresponds in the input frame, for example: in the embodiment, angle steel L25x25 is selected, and the thickness of the angle steel is 2 mm; further, according to different stress points or actual reinforcement requirements, the external corner reinforcement is needed, the angle steel can be downwardly offset by a proper distance, that is, the offset data is set, and 0 is selected in the embodiment.

The hand-drawn function is a supplement and addition to the above functions, and can be locally modified. Lines and patterns are required to be added at the local keel and the veneer according to the decoration process requirements, and a hand-drawing tool can be used for drawing. Before drawing, parts such as a world keel, a vertical keel, a transverse keel, a short side keel, a cover panel 1, a cover panel 2 and the like are selected, a user can click a drop-down frame to select, and after the selection is finished, a drawing button is clicked, and drawing is started.

The remarks are supplementary explanations for the rapid leveling design of the light steel keel, such as lines, surface characteristics and the like.

And simultaneously, a virtual pickup key and a virtual cancel key are arranged on an interactive interface, after a user sets various first base layer keel parameters or second base layer keel parameters and base layer plate parameters, the motor picks the virtual keys, a mouse or other selection tools are used for picking application functional areas, such as one or more walls, the ground, a ceiling and the like, to obtain real-time construction effect preview, the virtual cancel key is clicked to cancel the current preview, and various light steel keel leveling parameters are reset.

As shown in fig. 10, based on the indoor light gauge steel leveling simulation method, the invention further provides indoor light gauge steel leveling simulation equipment, and the indoor light gauge steel leveling simulation equipment can be computing equipment such as a mobile terminal, a desktop computer, a notebook, a palm computer and a server. The indoor light steel keel leveling simulation equipment comprises a processor 10, a memory 20 and a display 30. Only some of the components of the indoor light steel keel leveling simulation apparatus are shown in fig. 10, but it should be understood that not all of the illustrated components are required and that more or fewer components may alternatively be implemented.

The memory 20 may be, in some embodiments, an internal storage unit of the indoor light steel keel leveling simulation device, such as a hard disk or a memory of the indoor light steel keel leveling simulation device. In other embodiments, the memory 20 may also be an external storage device of the indoor light steel keel leveling simulation device, for example, a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), or the like, which is equipped on the indoor light steel keel leveling simulation device. Further, the memory 20 may also include both an internal memory unit and an external memory device of the indoor light steel keel leveling simulation device. The memory 20 is used for storing application software installed in the indoor light gauge steel leveling simulation device and various data, such as program codes for installing the indoor light gauge steel leveling simulation device. The memory 20 may also be used to temporarily store data that has been output or is to be output. In one embodiment, the memory 20 stores an indoor light steel keel leveling simulation program 40, and the indoor light steel keel leveling simulation program 40 can be executed by the processor 10, so as to implement the indoor light steel keel leveling simulation method according to the embodiments of the present application.

The processor 10 may be, in some embodiments, a Central Processing Unit (CPU), a microprocessor or other data Processing chip, and is configured to run program codes stored in the memory 20 or process data, such as executing the indoor light steel keel leveling simulation method.

The display 30 may be an LED display, a liquid crystal display, a touch-sensitive liquid crystal display, an OLED (Organic Light-Emitting Diode) touch panel, or the like in some embodiments. The display 30 is used for displaying information of the indoor light steel keel leveling simulation device and displaying visual user interfaces, such as an interactive interface and the like. The components 10-30 of the indoor light steel keel leveling simulation device communicate with each other through a system bus.

In one embodiment, the following steps are implemented when the processor 10 executes the indoor light steel keel leveling simulation program 40 in the memory 20:

obtaining prestored leveling parameters of the light steel keel;

displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in an interactive interface according to the keel pattern selected by a user;

receiving a parameter setting instruction input by a user, and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction;

and generating a corresponding light steel keel structure preview model at the interactive interface according to the set light steel keel leveling parameters.

The light steel keel leveling parameters comprise base keel parameters and base plate parameters.

Further, the step of displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in the interactive interface according to the keel pattern selected by the user comprises the following steps:

acquiring a keel pattern input by a user, wherein the keel pattern comprises a U-shaped keel and a clamping keel;

displaying the base keel parameters of the corresponding keel patterns for the user to set in the base keel parameter interaction area according to the keel patterns selected by the user;

and displaying the base plate parameters set by a user in a base plate parameter interaction area.

The step of displaying the base keel parameters of the corresponding keel patterns for the user to set in the base keel parameter interaction area according to the keel patterns selected by the user specifically comprises the following steps:

when a user selects the U-shaped keel, displaying a first base keel parameter for the user to set in a base keel parameter interaction area;

when the user selects the card type keel, the parameters of the second base keel set by the user are displayed in the interaction area of the parameters of the base keel.

The first base layer keel parameters comprise a fixing piece, a top and bottom keel, a vertical keel, a transverse keel, short edge arrangement, corner deviation, tolerance, ceiling elevation, ceiling extending and finishing surface thickness; the parameters of the second base layer keel comprise support, fixing, vertical keels, transverse keels, vertical support keels, corner keels, ceiling elevation, ceiling extending-in and finished surface thickness; the parameters of the base plate comprise the type of a cover plate, a surface treatment mode, a corner connection mode, external corner reinforcement, hand-drawing parameters and remark instructions.

The step of receiving a parameter setting instruction input by a user and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction comprises the following steps:

receiving a parameter setting instruction input by a user, wherein the parameter setting instruction comprises a selection instruction and a character instruction;

and setting the parameters of the base keel and the parameters of the base plate according to the selection instruction and the character instruction.

The step of generating a corresponding light gauge steel structure preview model at the interactive interface according to the set leveling parameters of the light gauge steel specifically comprises the following steps:

and displaying a light steel keel structure model correspondingly generated according to the parameters of the base keel and the parameters of the base plate on a structure preview window of the interactive interface.

Please refer to fig. 11, which is a functional block diagram of a preferred embodiment of the system for leveling simulation procedure of installing indoor light steel keels according to the present invention. In this embodiment, the system for installing the indoor light steel keel leveling simulation program can be divided into one or more modules, and the one or more modules are stored in the memory 20 and executed by one or more processors (in this embodiment, the processor 10) to complete the present invention. For example, in fig. 11, the system for installing the indoor light steel keel leveling simulation program may be divided into an acquisition module 21, an interaction module 22, a parameter setting module 23 and a preview module 24. The module referred by the invention is a series of computer program instruction segments capable of completing specific functions, and is more suitable for describing the execution process of the indoor light steel keel leveling simulation program in the indoor light steel keel leveling simulation equipment than a program. The following description will specifically describe the functionality of the modules 21-24.

The acquisition module 21 is used for acquiring prestored leveling parameters of the light steel keel;

the interactive module 22 is used for displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in the interactive interface according to the keel pattern selected by the user;

the parameter setting module 23 is configured to receive a parameter setting instruction input by a user, and set the light gauge steel leveling parameter on the interactive interface according to the parameter setting instruction;

and the preview module 24 is configured to generate a corresponding light gauge steel structure preview model at the interaction interface according to the set light gauge steel leveling parameter.

Based on the above indoor light steel keel leveling simulation method and device, the present invention further provides an indoor light steel keel leveling simulation system, please refer to fig. 11, which includes a database 110 and the above indoor light steel keel leveling simulation device 120.

The database is used for storing light steel keel leveling parameters; the indoor light steel keel leveling simulation equipment is used for acquiring light steel keel leveling parameters in a database and displaying the light steel keel leveling parameters corresponding to keel patterns in a preset form in an interactive interface according to the keel patterns selected by a user; receiving a parameter setting instruction input by a user, and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction; and generating a corresponding light steel keel structure preview model at the interactive interface according to the set leveling parameters of the light steel keel

In summary, in the indoor light steel keel leveling simulation method, the indoor light steel keel leveling simulation device, the indoor light steel keel leveling simulation system and the storage medium provided by the invention, the indoor light steel keel leveling simulation method obtains the pre-stored light steel keel leveling parameters; then displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in the interactive interface according to the keel pattern selected by the user; then receiving a parameter setting instruction input by a user, and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction; and generating a corresponding light steel keel structure preview model at the interactive interface according to the set light steel keel leveling parameters. The leveling process of the light steel keel can be simulated and displayed accurately in real time, and the efficiency of indoor decoration design and the accuracy of leveling construction are improved.

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program instructing relevant hardware (such as a processor, a controller, etc.), and the program may be stored in a computer readable storage medium, and when executed, the program may include the processes of the above method embodiments. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (6)

1. An indoor light steel keel leveling simulation method is characterized by comprising the following steps:

obtaining prestored leveling parameters of the light steel keel;

displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in an interactive interface according to the keel pattern selected by a user;

receiving a parameter setting instruction input by a user, and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction;

generating a corresponding light steel keel structure preview model on the interactive interface according to the set light steel keel leveling parameters;

the light steel keel leveling parameters comprise base keel parameters and base plate parameters;

the step of displaying the leveling parameters of the light steel keel corresponding to the keel pattern in a preset form in the interactive interface according to the keel pattern selected by the user comprises the following steps:

acquiring a keel pattern input by a user, wherein the keel pattern comprises a U-shaped keel and a clamping keel;

displaying the base keel parameters of the corresponding keel patterns for the user to set in the base keel parameter interaction area according to the keel patterns selected by the user;

displaying the base plate parameters for the user to set in a base plate parameter interaction area;

the step of displaying the base keel parameters of the corresponding keel patterns for the user to set in the base keel parameter interaction area according to the keel patterns selected by the user specifically comprises the following steps:

when a user selects the U-shaped keel, displaying a first base keel parameter for the user to set in a base keel parameter interaction area;

when a user selects the clip type keel, displaying a second base keel parameter for the user to set in the base keel parameter interaction area;

the first base layer keel parameters comprise a fixing piece, a top and bottom keel, a vertical keel, a transverse keel, short edge arrangement, corner deviation, tolerance, ceiling elevation, ceiling extending and finishing surface thickness;

the parameters of the second base layer keel comprise support, fixing, vertical keels, transverse keels, vertical support keels, corner keels, ceiling elevation, ceiling extending-in and finished surface thickness;

the parameters of the base plate comprise the type of a cover plate, a surface treatment mode, a corner connection mode, external corner reinforcement, hand-drawing parameters and remark instructions.

2. The indoor light gauge steel leveling simulation method according to claim 1, wherein the step of receiving a parameter setting instruction input by a user and setting the light gauge steel leveling parameter at the interactive interface according to the parameter setting instruction comprises:

receiving a parameter setting instruction input by a user, wherein the parameter setting instruction comprises a selection instruction and a character instruction;

and setting the parameters of the base keel and the parameters of the base plate according to the selection instruction and the character instruction.

3. The indoor light gauge steel leveling simulation method according to claim 1, wherein the step of generating a corresponding light gauge steel structure preview model at the interactive interface according to the set light gauge steel leveling parameters specifically comprises:

and displaying a light steel keel structure model correspondingly generated according to the parameters of the base keel and the parameters of the base plate on a structure preview window of the interactive interface.

4. The utility model provides an indoor light gauge steel analog equipment of making level which characterized in that includes: a processor, a memory, and a communication bus;

the memory has stored thereon a computer readable program executable by the processor;

the communication bus realizes connection communication between the processor and the memory;

the processor, when executing the computer readable program, implements the steps in the indoor light steel keel leveling simulation method according to any one of claims 1-3.

5. A computer readable storage medium, wherein the computer readable storage medium stores one or more programs which are executable by one or more processors to implement the steps in the indoor light steel keel leveling simulation method according to any one of claims 1-3.

6. An indoor light gauge steel leveling simulation system comprising a database, characterized by further comprising the indoor light gauge steel leveling simulation apparatus of claim 4;

the database is used for storing the leveling parameters of the light steel keel;

the indoor light steel keel leveling simulation equipment is used for acquiring light steel keel leveling parameters in the database and displaying the light steel keel leveling parameters corresponding to keel styles in a preset mode in an interactive interface according to the keel styles selected by users; receiving a parameter setting instruction input by a user, and setting the leveling parameter of the light steel keel on the interactive interface according to the parameter setting instruction; and generating a corresponding light steel keel structure preview model at the interactive interface according to the set light steel keel leveling parameter.

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