CN113158278A - Temporary building design method and device, equipment and storage medium - Google Patents

Abstract

The application relates to a temporary building design method, which comprises the following steps: acquiring currently input temporary building design information, and pushing a corresponding parameter configuration list according to the temporary building design information; reading configuration information input based on the parameter configuration list, calling an arrangement rule corresponding to the functional area in the temporary building design information, and generating a corresponding temporary building design scheme according to the arrangement rule based on the temporary building design information and the configuration information; and calculating and rendering the temporary building design scheme by adopting a 3D rendering engine method through the basic model in the standard model library to construct and obtain a temporary building design model. The temporary building design scheme is obtained by calling related arrangement rules, and is calculated and rendered through a basic model in a standard model library by a 3D rendering engine method, so that three-dimensional modeling display of the temporary building design scheme is realized, and the standardized management level of safe civilized construction is more convenient to improve.

Description

Temporary building design method and device, equipment and storage medium

Technical Field

The present application relates to the field of architectural design technologies, and in particular, to a method and an apparatus for temporary architectural design, a device, and a storage medium.

Background

The national grid company strengthens the safe and civilized construction management of the power transmission and transformation project in order to improve the safety quality management level of the power transmission and transformation project construction. The safety document construction standardized management refers to responsibility of safety management of all parties participating in construction of engineering construction, whole-process management and supervision and inspection are carried out, the safety system execution standardization of the power transmission and transformation process, the safety facility standardization, the personal safety protection article standardization, the site arrangement standardization, the operation behavior standardization and the environment influence minimization are achieved, and the construction safety is ensured. Therefore, a temporary building needs to be established before the construction of the power transmission and transformation project so as to guide the safe construction of the power transmission and transformation project. The temporary building is usually constructed according to the drawn temporary building model, and the visual effect of the drawn temporary building model in the related technology is poor, so that the construction of the temporary building is not conveniently guided.

Disclosure of Invention

In view of this, the present application provides a temporary building design method, which can effectively improve the visualization effect of a temporary building design model, thereby facilitating the knowledge of the construction of the temporary building.

According to an aspect of the present application, there is provided a temporary building design method including:

acquiring currently input temporary building design information, and pushing a corresponding parameter configuration list according to the temporary building design information;

wherein the temporary building design information includes at least one of a functional area of a temporary building to be currently created, an area shape of the temporary building, and an area size of the temporary building;

the functional area includes at least one of an office area, a living area, and a processing area;

reading configuration information input based on the parameter configuration list, calling an arrangement rule corresponding to the functional area in the temporary building design information, and generating a corresponding temporary building design scheme according to the arrangement rule based on the temporary building design information and the configuration information;

and calculating and rendering the temporary building design scheme by adopting a 3D rendering engine method through the basic model in the standard model library to construct and obtain a temporary building design model.

In one possible implementation, the parameter configuration list includes dictionary entries, value types, and remarks;

the dictionary item is used for representing a building item in the temporary building design information; wherein the number of the construction projects is multiple;

the value type is used for representing the current value of each building project; the remarks are used for representing default values of all the building projects;

the configuration rule comprises: and arranging each building item according to the configuration information, wherein the minimum distance between each building item in the temporary building design information is a first preset value, the distance between each building item and the peripheral wall of the temporary building is a second preset value, the distance between the first building item and the reference position of the temporary building is a third preset value, and the minimum distance between the building entrance and the building exit at the corner is a fourth preset value.

In one possible implementation, the reference location comprises a gate location of the temporary building;

the value range of the first preset value, the value range of the second preset value and the value range of the third preset value are all as follows: 1 m to 3 m.

In one possible implementation, when the functional area is the living area, the construction project includes: at least one of gate position, arrangement mode, number of layers of staff dormitories, number of staff dormitories, washroom, washing area, clothes airing area, number of kitchen rooms, number of restaurant rooms, canteen and storage battery car parking area;

wherein the configuration rule further comprises: and determining a reference position of the living area, and sequentially arranging and arranging the buildings in the building projects at intervals of a first preset value along the periphery of the area shape of the living area by taking the reference position of the living area as a starting point according to the arrangement direction determined in the arrangement mode.

In one possible implementation, when the functional area is the office area, the construction project includes: at least one of gate position, arrangement mode, parking lot scale, office building, main office, construction office, supervision office, conference room, party building activity room, sample plate demonstration area, garbage classification area, flag post and fire-fighting equipment;

wherein the configuration rule further comprises: determining a reference position of the office area, and sequentially arranging parking lots, office buildings and sample plate demonstration areas at intervals of a first preset value along the periphery of the area shape of the office area by taking the reference position as a starting point according to the arrangement direction determined in the arrangement mode;

and sequentially arranging a garbage classification area, a flag post and fire-fighting equipment at a first distance area from the office building according to a preset direction by taking a first preset value as an interval.

In one possible implementation, when the functional area is the processing area, the construction project includes: at least one of a gate position, an arrangement mode, a woodworking processing area, a reinforcing steel bar processing area, a mixing station, a grit material yard, a cement warehouse and a dangerous goods warehouse;

wherein the configuration rule further comprises: and determining a reference position of the processing area, and sequentially arranging and arranging the buildings in the building project at intervals of a first preset value according to the arrangement direction determined in the arrangement mode along the periphery of the area shape of the processing area by taking the reference position of the processing area as a starting point.

In one possible implementation manner, the method further includes: and reading the model file of the temporary architectural design model, and displaying the holographic scene of the temporary architectural design model.

According to another aspect of the application, a temporary building design device is further provided, and the temporary building design device comprises an information acquisition pushing module, a parameter reading module, a rule calling module, a scheme generating module and a model building module;

the information acquisition pushing module is configured to acquire currently input temporary building design information and push a corresponding parameter configuration list according to the temporary building design information;

wherein the temporary building design information includes at least one of a functional area of a temporary building to be currently created, an area shape of the temporary building, and an area size of the temporary building;

the functional area includes at least one of an office area, a living area, and a processing area;

the parameter reading module is configured to read configuration information input based on the parameter configuration list;

the rule calling module is configured to call an arrangement rule corresponding to the functional area;

the scheme generation module is configured to generate a corresponding temporary building design scheme according to the arrangement rule based on the temporary building design information and the configuration information;

the model construction module is configured to calculate and render the temporary building design scheme through a basic model in a standard model library by adopting a 3D rendering engine method, and a temporary building design model is constructed.

According to an aspect of the present application, there is also provided a temporary architectural design apparatus, including:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to execute the executable instructions to implement any of the methods described above.

According to another aspect of the present application, there is also provided a non-transitory computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, implement the method of any of the preceding.

According to the temporary building design method, the currently input temporary building design information is obtained, the corresponding parameter configuration list is pushed according to the temporary building design information, then the configuration information input based on the parameter configuration list is read, the arrangement rule corresponding to the functional area in the temporary building design information is called, and therefore the corresponding temporary building design scheme is generated based on the temporary building design information and the configuration information according to the preset arrangement rule, and the function of automatically constructing and generating the temporary building design scheme is achieved. And after the temporary building design scheme is constructed by calling the related arrangement rules, the temporary building design scheme is calculated and rendered through the basic model in the standard model library by adopting a 3D rendering engine method, and the temporary building design model is constructed, so that the three-dimensional modeling display of the temporary building design scheme is realized. Namely, by combining the 3D rendering engine technology, the arrangement mode that the temporary building design scheme is presented in the visual scene based on the three-dimensional model is realized, and the effect of more intuitionistic and full scene is achieved, so that the standardized management level of the safe and civilized construction is more convenient to improve.

Other features and aspects of the present application will become apparent from the following detailed description of exemplary embodiments, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate exemplary embodiments, features, and aspects of the application and, together with the description, serve to explain the principles of the application.

FIG. 1 illustrates a flow chart of a temporary building design method of an embodiment of the present application;

FIG. 2 is a schematic diagram illustrating an implementation of a temporary building design method according to an embodiment of the present application;

fig. 3 shows a configuration rule diagram corresponding to a functional area being a living area in the temporary building design method according to the embodiment of the present application;

FIG. 4 is a schematic diagram of an algorithm in the temporary building design method according to the embodiment of the present application, when calculating a temporary building design plan through basic models in a standard model library;

fig. 5 shows a configuration rule diagram corresponding to a functional area in the temporary building design method according to the embodiment of the present application when the functional area is an office area;

FIG. 6 is an overall architecture diagram illustrating a temporary building design method according to an embodiment of the present application;

FIG. 7 is a diagram of a temporary building design model constructed using the temporary building design method of an embodiment of the present application;

FIG. 8 is a holographic scene diagram of a temporary architectural design model constructed by the temporary architectural design method according to the embodiment of the present application;

fig. 9 is a block diagram showing a construction of a temporary architectural design apparatus according to an embodiment of the present application;

fig. 10 shows a block diagram of a temporary architectural design apparatus according to an embodiment of the present application.

Detailed Description

Various exemplary embodiments, features and aspects of the present application will be described in detail below with reference to the accompanying drawings. In the drawings, like reference numbers can indicate functionally identical or similar elements. While the various aspects of the embodiments are presented in drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used exclusively herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

Furthermore, in the following detailed description, numerous specific details are set forth in order to provide a better understanding of the present application. It will be understood by those skilled in the art that the present application may be practiced without some of these specific details. In some instances, methods, means, elements and circuits that are well known to those skilled in the art have not been described in detail so as not to obscure the present application.

Fig. 1 shows a flow chart of a temporary building design method according to an embodiment of the present application. Fig. 2 is a schematic diagram illustrating an implementation process of the temporary building design method of the present application. As shown in fig. 1 and 2, the method includes: and step S100, acquiring the currently input temporary building design information, and pushing a corresponding parameter configuration list according to the temporary building design information. It should be noted that, in the method of the present application, the input temporary building design information includes at least one of a functional area of a temporary building to be currently created, an area shape of the temporary building, and an area size of the temporary building. The functional area includes at least one of an office area, a living area, and a processing area. And step S200, reading the configuration information input based on the parameter configuration list, calling an arrangement rule corresponding to the functional area in the temporary building design information, and generating a corresponding temporary building design scheme according to the arrangement rule based on the temporary building design information and the configuration information. And finally, calculating and rendering the temporary building design scheme by adopting a 3D rendering engine method through the basic model in the standard model library to construct and obtain a temporary building design model through step S300.

Therefore, according to the temporary building design method, the currently input temporary building design information is obtained, the corresponding parameter configuration list is pushed according to the temporary building design information, then the configuration information input based on the parameter configuration list is read, and the arrangement rule corresponding to the functional area in the temporary building design information is called, so that the corresponding temporary building design scheme is generated according to the preset arrangement rule based on the temporary building design information and the configuration information, and the function of automatically constructing and generating the temporary building design scheme is realized. By adopting the method, only the relevant design information of the temporary building needs to be input, and other redundant operations are not needed, so that the construction process of the temporary building design scheme is effectively simplified, and the construction difficulty of the temporary building design scheme is reduced. In the temporary building design method, after the temporary building design scheme is constructed by calling the related arrangement rules, the temporary building design scheme is calculated and rendered through the basic model in the standard model library by adopting a 3D rendering engine method, and the temporary building design model is constructed, so that the three-dimensional modeling display of the temporary building design scheme is realized. Namely, by combining the 3D rendering engine technology, the arrangement mode that the temporary building design scheme is presented in the visual scene based on the three-dimensional model is realized, and the effect of more intuitionistic and full scene is achieved, so that the standardized management level of the safe and civilized construction is more convenient to improve.

In one possible implementation, the parameter configuration list may include dictionary entries, value types, and remarks. The dictionary entries are used to characterize the building items in the temporary building design information. Here, the construction project refers to each building included in a temporary building that needs to be designed at present. Meanwhile, the number of construction projects is usually plural.

For example, when the temporary building to be designed is an office area, the building items included in the temporary building may include gate positions, parking lots, office buildings, main office, construction offices, supervision offices, conference rooms, party building studios, flag poles, garbage classification areas, fire fighting equipment, and the like. The following steps are repeated: when the temporary building to be designed at present is a living area, the building items contained in the temporary building can comprise a gate position of the living area, a staff dormitory, a toilet, a washing area, a clothes airing area, a kitchen and dining room, a canteen, a battery car parking area and the like.

The value type is used for representing the current value of each building project. And the remarks are used for representing default values of all the building projects. The configuration rule includes: and based on the configuration information, setting the minimum distance between all the building projects in the temporary building design information as a first preset value, and setting the distances from all the building projects to the peripheral wall of the temporary building as second preset values. Meanwhile, each building project is arranged in a mode that the first building project is away from the reference position of the temporary building by a third preset value, and the minimum distance between the entrances and the exits of the buildings at the corners is a fourth preset value.

It should be noted that, in the above configuration rule, the reference position of the temporary building generally refers to a gate position of the temporary building. The value range of the first preset value, the value range of the second preset value and the value range of the third preset value are all 1-3 meters.

Further, according to the foregoing, when the functional area of the temporary building to be currently designed is a living area, the building items included in the dictionary entry in the pushed parameter configuration list may include at least one of a gate position, an arrangement manner, the number of layers of the employee dormitory, the number of the employee dormitory rooms, a toilet, a washing area, a clothes drying area, the number of kitchen rooms, the number of the restaurant rooms, a canteen, and a battery car parking area. Correspondingly, the configuration rule needs to include, in addition to the basic arrangement described above: determining a reference position of the living area, and sequentially arranging the buildings in the building projects at intervals of a first preset value along the periphery of the area shape of the living area by taking the reference position of the living area as a starting point according to the arrangement direction determined in the arrangement mode.

Specifically, in the temporary building design method of the present application, when the functional area of the temporary building layout plan that needs to be designed currently is a living area, the layout of the living area basically includes: a living area gate, a temporary enclosure wall, a staff dormitory, a kitchen and a dining room, a convenience store (namely, a canteen), a toilet (comprising a male toilet and a female toilet), a clothes drying area, a washing area, a storage battery car parking place and the like.

Referring to fig. 3, the rule of configuration of the temporary building in which the functional area is a living area includes: based on a gate of a living area, the gate is arranged close to a peripheral wall for a circle in a clockwise or anticlockwise (namely, arrangement direction) manner, and the following steps are carried out in sequence: staff's dormitory > > bathroom > > washing district > > clothing district > > kitchen and dining room (contain the convenience store) > > storage battery car parking area. The arrangement is divided into three cases, and the automatic matching is carried out according to the size of the selection area and the configuration rule. That is, the minimum distance between facilities (i.e., between the building projects) is 1 meter, the distance from the building projects to the peripheral wall is 1 meter, the first building project (i.e., the first facility, such as a staff dormitory) is 1 meter from the gate of the living area, and the minimum distance between the building entrances and exits at the corners is 1 meter.

Here, when the temporary architectural design plan is automatically generated according to the above-mentioned configuration rule, it is necessary to acquire the currently input temporary architectural design information and the configuration information input based on the parameter configuration list. In a possible implementation manner, the user may input the temporary architectural design information in a dynamic indication manner, and meanwhile, the user may input the corresponding configuration information based on the parameter configuration list in a checking manner.

That is, when a temporary building design plan for a living area is constructed, it is first necessary to select an arrangement area and design a peripheral wall. The shape of the arrangement region may be a rectangular region or a non-rectangular region. In this embodiment, a rectangular area is preferred. When the peripheral wall is arranged, the distance of each side length in the rectangular area is dynamically marked. In this way, the area shape and the area size of the temporary building in the temporary building design information can be set. After the enclosing wall is set, the function area of the arrangement area is selected by pointing the living area, and the function area of the temporary building can be set by clicking the confirmation button. The setting of the temporary building design information, i.e., the functional area, the area shape, and the area size of the temporary building, can be thus achieved through the above-described steps. After clicking the [ confirm ] button, an auto layout configuration page pops up automatically. Namely, a corresponding parameter configuration list is pushed according to the temporary building design information input by the user.

TABLE 1

Referring to table 1, the pushed parameter configuration list includes three columns, namely, a dictionary entry, a value type and a remark. The dictionary items comprise door positions of living areas, arrangement modes, staff dormitories (including the number of floors and the number of rooms), toilets, washing areas, clothes drying areas, kitchens and restaurants (namely the number of kitchen rooms and the number of restaurants), canteens and battery car parking areas. The value type corresponds to the value type of each dictionary item, and the remarks represent the default values of each dictionary item.

After various configuration items are selected from the parameter configuration list and stored, the temporary building design scheme of the living area can be automatically generated according to various configuration information in the parameter configuration list and corresponding configuration rules. The design scheme of the temporary building of the living area comprises the size of the living area, the shape of the area, the specific arrangement mode of various building projects in the living area and the like. The temporary building design information and the configuration information are set by adopting the dynamic marking and information checking mode, so that the temporary building design information and the configuration information are easy to operate, and the secondary editing, fine adjustment and other operations of various facility models can be met.

Here, it should also be noted that, when the temporary building design solution is automatically generated according to the corresponding configuration rule based on the items of configuration information in the parameter configuration list and the temporary building design information, the algorithm principle adopted when determining the spatial position coordinates of the items of building items (i.e., the items of facilities) can be seen in fig. 4.

Wherein Dir AB ═ (B-a) · normalized; dir AB is an AB vector; dir BC ═ (C-B) · normalized; dir BC is a BC vector; vercter Epoint ═ initPoint (a) + [ Dir AB x/2+ Dir BC z/2 ]; epoint is the coordinate of the solution position point, initPoint (a) is the coordinate of the reference initialization position point, X is the offset on the X axis, Z is the offset on the Z axis, and the default on the Y axis is 0.

Further, when the functional area is an office area, the construction project may include at least one of a gate position of the office area, a layout manner, a parking lot size, an office building, a business office, a construction office, a supervision office, a conference room, a party building room, a template demonstration area, a trash classification area, a banner pole, and a fire fighting equipment. Correspondingly, the configuration rule further includes, in addition to the basic configuration described above: determining a reference position of an office area, and sequentially arranging parking lots, office buildings and a template demonstration area at intervals of a first preset value along the periphery of the area shape of the office area by taking the reference position as a starting point according to the arrangement direction determined in the arrangement mode; and sequentially arranging a garbage classification area, a flag post and fire-fighting equipment at a first distance area from the office building according to a preset direction by taking a first preset value as an interval.

Specifically, when the functional area is an office area, the office area basically includes: office area large door, temporary enclosing wall, office building, parking lot, sample plate demonstration area, garbage classification area, flag post, fire-fighting equipment and the like. Referring to fig. 5, the configuration rule corresponding to the office area is: selecting an arrangement area, taking the gate of an office area as a reference, abutting against the peripheral wall for a circle, and arranging according to the clockwise or anticlockwise (namely the arrangement direction), wherein the arrangement area sequentially comprises the following steps: parking lot > > office building > > template demonstration area. 6 meters in front of an office building are sequentially arranged from left to right: the garbage classification area > flag stand pole > fire-fighting equipment; the arrangement is divided into three conditions, and various building projects are automatically matched according to the size of the selected area. Namely, the minimum distance between each item of building project is 1 meter, the distance from each item of building to the enclosure is 1 meter, the first building project is arranged at the beginning of 1 meter away from the gate of the office area, and the minimum distance between the entrance and the exit of the building at the corner is 1 meter.

TABLE 2

Similarly, when the temporary architectural design plan of the office area is generated according to the configuration rule, the temporary architectural design information and the configuration information of the office area also need to be acquired first. The temporary building design information and the configuration information of the office area can be realized in a dynamic marking and checking mode.

That is, the layout area of the office area is first selected. In selecting the layout area of the office area, the area shape and the area size of the office area need to be determined. The area shape and area size of the office area are realized by providing peripheral walls. When the peripheral wall is provided, the peripheral wall may be shaped in a rectangular shape so that the area of the office area is a rectangular area. Meanwhile, the setting of the area size of the office area is realized by dynamically marking the side length distance of each rectangular area.

After the peripheral wall of the office area is set, the functional area is set for the area by checking the (office area). And then the [ confirm ] button is clicked to pop up an automatic layout configuration page. That is, a parameter configuration list of the office area is pushed according to the temporary architectural design information set by the user in the above manner, which is specifically shown in table 2.

After various configuration items are selected from the parameter configuration list corresponding to the office area and stored, the temporary building design scheme of the office area can be automatically generated according to various configuration information in the parameter configuration list and corresponding configuration rules. The temporary building design plan of the office area comprises the size of the office area, the shape of the area, the specific arrangement mode of various building projects in the office area and the like.

Further, when the functional area is a processing area, the construction project includes: at least one of a gate position of the processing area, an arrangement mode, a woodworking processing area, a reinforcing steel bar processing area, a mixing station, a sand and stone storage yard, a cement warehouse and a dangerous goods warehouse. Correspondingly, the configuration rule includes, in addition to the basic configuration described above, the following: and determining a reference position of the processing area, and sequentially arranging the buildings in the building projects at intervals of a first preset value along the periphery of the area shape of the processing area by taking the reference position of the processing area as a starting point according to the arrangement direction determined in the arrangement mode.

For example, the processing zone essentially comprises: a processing area gate, a temporary enclosing wall, a woodworking processing area, a reinforcing steel bar processing area, a stirring station, a grit material yard, a cement warehouse and a dangerous goods warehouse. The arrangement is divided into three cases, and automatic matching is carried out according to the size of the selected area. The minimum distance between each building project is 1 meter, the distance from each building project to the enclosing wall is 1 meter, the first building project is arranged 1 meter away from the gate of the processing area, and the minimum distance between the building entrance and the building exit at the corner is 1 meter.

Correspondingly, the configuration rule of the processing area comprises the following steps: selecting an arrangement area of a processing area, taking a gate of the processing area as a reference, abutting against the peripheral wall for a circle, arranging clockwise or anticlockwise, and sequentially: carpenters' processing district > > reinforcement processing district > > stirring station > > grit stock yard > > cement warehouse > > hazardous articles warehouse.

Similarly, when the temporary architectural design plan of the processing area is generated according to the configuration rule, the temporary architectural design information and the configuration information of the processing area also need to be acquired first. The temporary building design information and the configuration information of the processing area can be realized in a dynamic marking and checking mode. Since the manner and principle of setting the temporary architectural design information and configuration information are the same as or similar to those of the living area and office area described above, detailed description thereof is omitted.

When the configuration information of the processing area is set, dictionary items in a parameter configuration list of the processing area pushed by the user are different from a parameter configuration list corresponding to a living area and a parameter configuration list corresponding to an office area. See table 3 for details.

TABLE 3

Therefore, according to the temporary building design method, different configuration rules are formulated for different functional areas respectively, and then corresponding temporary building design schemes are automatically generated by calling the different configuration rules, so that the finally obtained temporary building design schemes are more consistent with the required functions, and the accuracy and the reliability of the temporary building design schemes are further improved.

In addition, referring to fig. 6, in the temporary building design method of the present application, after the temporary building design model is constructed in any one of the above manners, a step of reading the constructed temporary building design model and displaying a holographic scene of the temporary building design model may be further included. Namely, in the overall architecture of the temporary building design method, a full-field three-dimensional modeling and visualization module is added, the temporary building design model obtained through construction is read through the full-field three-dimensional modeling and visualization module, and the constructed temporary building design model is displayed in a 3D mode through a full-field visual holographic browsing mode, so that the purpose of three-dimensional display of the constructed temporary building design model is achieved. Therefore, the arrangement mode of the on-site temporary building facilities is presented through the visual scene based on the three-dimensional model, the on-site temporary building arrangement and construction are guided, the effect of being more visual and panoramic is achieved, the standard management level of the safety civilization construction is effectively improved, the standard configuration of the safety civilization construction facilities is assisted, and the problem of unreasonable design is avoided.

Referring to fig. 7 and 8, an automatic layout effect diagram and a full-field 3D visualization scene effect diagram of the temporary building design model of the office area, which are constructed by using the temporary building design method of the present application, are shown, respectively. According to the effect graph, the temporary building design model constructed by the temporary building design method is more reasonable and more intuitive.

Correspondingly, based on any one of the temporary building design methods, the application also provides a temporary building design device. Since the working principle of the temporary building design device provided by the application is the same as or similar to that of the temporary building design method provided by the application, repeated descriptions are omitted.

Referring to fig. 9, the temporary building design apparatus 100 provided by the present application includes an information obtaining and pushing module 110, a parameter reading module 120, a rule calling module 130, a scheme generating module 140, and a model building module 150. The information obtaining and pushing module 110 is configured to obtain currently input temporary architectural design information, and push a corresponding parameter configuration list according to the temporary architectural design information. Wherein the temporary building design information includes at least one of a functional area of the temporary building to be currently created, an area shape of the temporary building, and an area size of the temporary building. It is also noted that the functional area includes at least one of an office area, a living area, and a processing area. A parameter reading module 120 configured to read configuration information input based on the parameter configuration list. A rule calling module 130 configured to call an arrangement rule corresponding to the functional region. And a plan generating module 140 configured to generate a corresponding temporary architectural design plan according to the arrangement rule based on the temporary architectural design information and the configuration information. And the model building module 150 is configured to calculate and render the temporary building design scheme through the basic model in the standard model library by adopting a 3D rendering engine method, so as to build the temporary building design model.

Still further, according to another aspect of the present application, there is also provided a temporary architectural design apparatus 200. Referring to fig. 10, the temporary architectural design apparatus 200 of the present embodiment includes a processor 210 and a memory 220 for storing instructions executable by the processor 210. Wherein the processor 210 is configured to execute the executable instructions to implement any of the temporary architectural design methods described above.

Here, it should be noted that the number of the processors 210 may be one or more. Meanwhile, in the temporary architectural design apparatus 200 of the embodiment of the present application, an input device 230 and an output device 240 may be further included. The processor 210, the memory 220, the input device 230, and the output device 240 may be connected via a bus, or may be connected via other methods, which is not limited in detail herein.

The memory 220, which is a computer-readable storage medium, may be used to store software programs, computer-executable programs, and various modules, such as: the temporary building design method of the embodiment of the application corresponds to a program or a module. The processor 210 performs various functional applications and data processing of the temporary architectural design apparatus 200 by executing software programs or modules stored in the memory 220.

The input device 230 may be used to receive an input number or signal. Wherein the signal may be a key signal generated in connection with user settings and function control of the device/terminal/server. The output device 240 may include a display device such as a display screen.

According to another aspect of the present application, there is also provided a non-transitory computer readable storage medium having stored thereon computer program instructions which, when executed by the processor 210, implement the temporary building design method as described in any of the preceding.

Having described embodiments of the present application, the foregoing description is intended to be exemplary, not exhaustive, and not limited to the disclosed embodiments. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the described embodiments. The terms used herein were chosen in order to best explain the principles of the embodiments, the practical application, or technical improvements to the techniques in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (10)

1. A temporary building design method, comprising:

acquiring currently input temporary building design information, and pushing a corresponding parameter configuration list according to the temporary building design information;

wherein the temporary building design information includes at least one of a functional area of a temporary building to be currently created, an area shape of the temporary building, and an area size of the temporary building;

the functional area includes at least one of an office area, a living area, and a processing area;

reading configuration information input based on the parameter configuration list, calling an arrangement rule corresponding to the functional area in the temporary building design information, and generating a corresponding temporary building design scheme according to the arrangement rule based on the temporary building design information and the configuration information;

and calculating and rendering the temporary building design scheme by adopting a 3D rendering engine method through the basic model in the standard model library to construct and obtain a temporary building design model.

2. The method of claim 1, wherein the parameter configuration list comprises dictionary terms, value types, and notes;

the dictionary item is used for representing a building item in the temporary building design information; wherein the number of the construction projects is multiple;

the value type is used for representing the current value of each building project; the remarks are used for representing default values of all the building projects;

the configuration rule comprises: and arranging each building item according to the configuration information, wherein the minimum distance between each building item in the temporary building design information is a first preset value, the distance between each building item and the peripheral wall of the temporary building is a second preset value, the distance between the first building item and the reference position of the temporary building is a third preset value, and the minimum distance between the building entrance and the building exit at the corner is a fourth preset value.

3. The method of claim 2, wherein the reference location comprises a gate location of the temporary building;

the value range of the first preset value, the value range of the second preset value and the value range of the third preset value are all as follows: 1 m to 3 m.

4. The method of claim 2, wherein when the functional area is the living area, the construction project comprises: at least one of gate position, arrangement mode, number of layers of staff dormitories, number of staff dormitories, washroom, washing area, clothes airing area, number of kitchen rooms, number of restaurant rooms, canteen and storage battery car parking area;

wherein the configuration rule further comprises: and determining a reference position of the living area, and sequentially arranging and arranging the buildings in the building projects at intervals of a first preset value along the periphery of the area shape of the living area by taking the reference position of the living area as a starting point according to the arrangement direction determined in the arrangement mode.

5. The method of claim 2, wherein when the functional area is the office area, the construction item comprises: at least one of gate position, arrangement mode, parking lot scale, office building, main office, construction office, supervision office, conference room, party building activity room, sample plate demonstration area, garbage classification area, flag post and fire-fighting equipment;

wherein the configuration rule further comprises: determining a reference position of the office area, and sequentially arranging parking lots, office buildings and sample plate demonstration areas at intervals of a first preset value along the periphery of the area shape of the office area by taking the reference position as a starting point according to the arrangement direction determined in the arrangement mode;

and sequentially arranging a garbage classification area, a flag post and fire-fighting equipment at a first distance area from the office building according to a preset direction by taking a first preset value as an interval.

6. The method of claim 2, wherein when the functional area is the machining area, the construction item comprises: at least one of a gate position, an arrangement mode, a woodworking processing area, a reinforcing steel bar processing area, a mixing station, a grit material yard, a cement warehouse and a dangerous goods warehouse;

wherein the configuration rule further comprises: and determining a reference position of the processing area, and sequentially arranging and arranging the buildings in the building project at intervals of a first preset value according to the arrangement direction determined in the arrangement mode along the periphery of the area shape of the processing area by taking the reference position of the processing area as a starting point.

7. The method of any of claims 1 to 6, further comprising: and reading the model file of the temporary architectural design model, and displaying the holographic scene of the temporary architectural design model.

8. A temporary building design device is characterized by comprising an information acquisition pushing module, a parameter reading module, a rule calling module, a scheme generating module and a model building module;

the information acquisition pushing module is configured to acquire currently input temporary building design information and push a corresponding parameter configuration list according to the temporary building design information;

wherein the temporary building design information includes at least one of a functional area of a temporary building to be currently created, an area shape of the temporary building, and an area size of the temporary building;

the functional area includes at least one of an office area, a living area, and a processing area;

the parameter reading module is configured to read configuration information input based on the parameter configuration list;

the rule calling module is configured to call an arrangement rule corresponding to the functional area;

the scheme generation module is configured to generate a corresponding temporary building design scheme according to the arrangement rule based on the temporary building design information and the configuration information;

the model construction module is configured to calculate and render the temporary building design scheme through a basic model in a standard model library by adopting a 3D rendering engine method, and a temporary building design model is constructed.

9. A temporary architectural design apparatus, comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to carry out the executable instructions when implementing the method of any one of claims 1 to 7.

10. A non-transitory computer readable storage medium having computer program instructions stored thereon, wherein the computer program instructions, when executed by a processor, implement the method of any of claims 1 to 7.

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