CN113836615B - Intelligent matching method and system for house type modules in standard layer - Google Patents

Abstract

The invention discloses an intelligent matching method and system for house type modules in a standard layer, wherein the method comprises the following steps: acquiring site information, and determining an end-cap type module matched with the site information based on the site information; determining a middle housing type module according to the area parameters of the end housing type module; and determining a core tube module matched with the middle house type module according to the middle house type module so as to complete house type module matching of a standard layer. According to the invention, the corresponding end-housing type module is automatically matched according to the site information, then the middle-housing type module and the core tube module are matched based on the end-housing type module, and the whole process is realized based on intelligent matching, so that the design of the whole standard layer is efficiently completed, and the whole design flow is simplified.

Description

Intelligent matching method and system for house type modules in standard layer

Technical Field

The invention relates to the technical field of standard layer design, in particular to an intelligent matching method and system for house type modules in a standard layer.

Background

With the development of cities, old city change and update projects are more and more. Many old renovation projects have problems in the process of designing the house type standard layer due to the fact that the regional topography is complex, the house type areas are numerous and irregular, the house type numbers of all the area sections are different, and the like, and the efficiency is low in the process of redesigning, integrating and planning the standard layer.

Accordingly, there is a need for improvement and advancement in the art.

Disclosure of Invention

The invention aims to solve the technical problems that aiming at the defects of the prior art, the invention provides an intelligent matching method and system for house type modules in a standard floor, and aims to solve the problem that in the prior art, when old changes are carried out in the face of complex areas or irregular communities, the efficiency is low when a standard floor house type structure is redesigned, integrated and planned.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows:

in a first aspect, the present invention provides a method for intelligently matching house type modules in a standard layer, where the method includes:

acquiring site information, and determining an end-cap type module matched with the site information based on the site information;

determining a middle housing type module according to the area parameters of the end housing type module;

and determining a core tube module matched with the middle house type module according to the middle house type module so as to complete house type module matching of a standard layer.

In one implementation, the obtaining the site information, determining, based on the site information, an end-user type module that matches the site information includes:

acquiring the site information, and determining position information corresponding to the site information according to the site information;

and matching the corresponding end-user type module from a preset user type module database according to the position information.

In one implementation manner, the matching, according to the location information, the corresponding end-cap-type module from a preset house-type module database includes:

determining the distance between the position information and a preset lake scenery mark point according to the position information;

if the distance is smaller than a preset distance threshold, matching a first hall end housing type module from the housing type module database;

and if the distance is greater than a preset distance threshold, matching a second hall end housing type module from the house type module database, wherein the first hall end housing type module is arranged facing the lake scenery mark point.

In one implementation, the determining the middle housing type module according to the area parameter of the end housing type module includes:

acquiring area parameters of the end-cap type module, and determining the remaining house type area in the standard layer according to the area parameters of the end-cap type module;

and matching the middle house type module from a preset house type module database according to the residual house type area in the standard layer.

In one implementation manner, the determining, according to the remaining house type area in the standard layer, the middle house type module from the preset house type module data includes:

dividing the residual house type area in the standard layer equally to obtain two space areas with equal areas;

and matching two middle house type modules with the same area from a preset house type module database according to the two space areas with the same area.

In one implementation manner, the determining, according to the remaining house type areas in the standard layer, an intermediate house type module from a preset house type module database includes:

dividing the residual house type area in the standard layer into two parts to obtain two space areas, wherein the area of one space area is larger than that of the other space area;

and matching a first middle house type module and a second middle house type module from a preset house type module database according to the two space areas, wherein the area of the first middle house type module is larger than that of the second middle house type module.

In one implementation manner, the determining, according to the intermediate housing type module, a core tube module matched with the intermediate housing type module includes:

acquiring width data of the middle housing type module;

and matching the core tube module corresponding to the width data from a preset house type module database according to the width data.

In a second aspect, an embodiment of the present invention further provides an intelligent matching system for a house type module in a standard layer, where the system includes:

the terminal housing type matching module is used for acquiring site information and determining a terminal housing type module matched with the site information based on the site information;

the middle housing type matching module is used for determining a middle housing type module according to the area parameters of the end housing type module;

and the core tube matching module is used for determining the core tube module matched with the middle housing type module according to the middle housing type module so as to complete the housing type module matching of the standard layer.

In a third aspect, an embodiment of the present invention further provides a terminal device, where the terminal device includes a memory, a processor, and an intelligent matching program for a home type module in a standard layer stored in the memory and capable of running on the processor, where the processor implements the steps of the intelligent matching method for a home type module in a standard layer according to any one of the above schemes when executing the intelligent matching program for a home type module in a standard layer.

In a fourth aspect, an embodiment of the present invention further provides a computer readable storage medium, where a standard-layer house type module intelligent matching program is stored on the computer readable storage medium, and when the standard-layer house type module intelligent matching program is executed by a processor, the steps of the standard-layer house type module intelligent matching method according to any one of the above schemes are implemented.

The beneficial effects are that: compared with the prior art, the invention provides an intelligent matching method for house type modules in a standard layer. And then determining the middle housing type module according to the area parameters of the end housing type module. And finally, according to the middle housing type module, determining a core tube module matched with the middle housing type module so as to complete the housing type module matching of the standard layer. According to the invention, the corresponding end-housing type module is automatically matched according to the site information, then the middle-housing type module and the core tube module are matched based on the end-housing type module, and the whole process is realized based on intelligent matching, so that the design of the whole standard layer is efficiently completed, and the whole design flow is simplified.

Drawings

Fig. 1 is a flowchart of a specific implementation of an intelligent matching method for house type modules in a standard layer according to an embodiment of the present invention.

Fig. 2 is a schematic layout diagram of a standard layer in the intelligent matching method of house type modules in the standard layer according to an embodiment of the present invention.

Fig. 3 is a system frame diagram of an intelligent matching system for house type modules in a standard layer provided by an embodiment of the invention.

Fig. 4 is a schematic block diagram of an internal structure of a terminal device according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and effects of the present invention clearer and more specific, the present invention will be described in further detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

With the development of cities, old city change and update projects are more and more. Many old renovation projects have problems in the process of designing the house type standard layer due to the fact that the regional topography is complex, the house type areas are numerous and irregular, the house type numbers of all the area sections are different, and the like, and the efficiency is low in the process of redesigning, integrating and planning the standard layer. For example, when an old change design is performed on an A community, the residential type result in the community is characterized by complex diversification because the community of the A community is old. Such as: 1. the house type structure is complex: the current situation of single-family type area sections is different from 45-171 single-storeys, various modes exist for calculating the property areas, some building property areas contain shared areas, and some building property areas do not contain shared areas. 2. The position distribution of each area section also has irregularity due to historical reasons, such as the main appearance is that the area section coverage is full in all types of the positions of the adjacent lakes and the non-adjacent lakes. 3. The number of current house types of various area sections is also different. 4. The facades are unified when the design is changed again. This makes the entire old redesign very labor intensive and inefficient, affecting the entire project progress.

Therefore, when the implementation is performed, the embodiment firstly obtains the site information, and determines the end-cap type module matched with the site information based on the site information. And then determining the middle housing type module according to the area parameters of the end housing type module. And finally, according to the middle housing type module, determining a core tube module matched with the middle housing type module so as to complete the housing type module matching of the standard layer. That is, in this embodiment, the corresponding end-housing type module is automatically matched according to the site information, then the middle-housing type module and the core tube module are matched based on the end-housing type module, the whole process is realized based on intelligent matching, even if the area is complicated and diversified, the corresponding housing type module can be found based on the intelligent matching method of this embodiment, so that the design of the whole standard layer is efficiently completed, and the whole design flow is simplified.

The intelligent matching method of the house type module in the standard layer in the embodiment can be applied to terminal equipment, and the terminal equipment can be intelligent terminal products such as computers, mobile phones and tablets. Specifically, as shown in fig. 1, the intelligent matching method for the house type module in the standard layer in the embodiment includes the following steps:

and step S100, acquiring site information, and determining an end-cap type module matched with the site information based on the site information.

In this embodiment, each individual living unit is used as a design object, and when each standard layer in each individual living unit is designed, the site information of each standard layer is first obtained. In this embodiment, the site information refers to site information of a single living unit where a standard floor of a house type design is located, for example, when the standard floor in the 5 th and 4 th floors in the community a is designed, the site information is the 5 th and 4 th floors in the community a. After the site information is obtained, the embodiment can match the corresponding end-user type module according to the site information.

When the community is changed, the house type which is more matched with the position can be adaptively set according to different positions, so that the lighting effect, the ventilation effect and the like of the designed house type can be increased, and the old-change meaning is reflected. The site information is worth of site information of a single living unit where a standard floor for house type design is located, and the site information is substantially reflected by the site information. Therefore, when the end-user type module is matched, the embodiment can obtain the corresponding position information from the site information, and then the end-user type module is matched according to the position information. Thus, more reasonable house type modules can be matched according to the unused geographic positions.

Specifically, in one implementation manner, after determining location information corresponding to the site information according to the site information, the embodiment determines a distance between the location information and a preset scene mark point according to the location information. And comparing the obtained distance with a preset distance threshold, and if the distance is smaller than the preset distance threshold, matching the first hall end housing type module from the housing type module database. And if the distance is greater than a preset distance threshold, matching a second hall end housing type module from the house type module database, wherein the first hall end housing type module is arranged facing the lake scenery mark point. In this embodiment, the lake scenery flag point is used for identifying the lake scenery, and when the distance between the position information required to perform the standard layer design and the lake scenery flag point is smaller than the preset threshold value, it is indicated that the area position required to perform the standard layer design is adjacent to the lake, so that the first hall end housing type module (such as the left end housing type module in fig. 2) can be matched for the area position. The first hall end housing type module in this embodiment is designed for the lake scenery mark point, namely is a house facing lake house type, so that the main functional space such as the living room in the first hall end housing type module is arranged on one side close to the lake scenery mark point, so as to fully enjoy the resources brought by the lake scenery, ensure ventilation and lighting effects, and other secondary spaces are arranged on the other side. When the distance between the position information required to be subjected to standard layer design and the lake scenery mark point is larger than the preset threshold value, the position of the area required to be subjected to standard layer design is not adjacent to the lake, so that the second hall end housing type module (such as the right end housing type module in fig. 2) can be matched for the position of the area. The second hall end housing type in this embodiment is set away from the lake scenery mark point, and the lighting effect on the right in fig. 2 is fully utilized, so that the end housing type modules at two ends in the whole standard layer can be matched.

In one implementation manner, the first hall end housing type module and the second hall end housing type module in this embodiment are matched from a preset housing type module database, the housing type module database is preset, housing type structures of various end housing type modules, middle housing type modules and core housing type modules are stored in the housing type module database, and parameter information corresponding to the housing type modules is also stored, for example, a corresponding relation between the first hall end housing type module and a facing lake position is set, and a corresponding relation between the second hall end housing type module and a non-facing lake position is set. Therefore, when the position of the area needing to be subjected to standard layer design is determined to be a lake or not, the corresponding end housing type module can be automatically matched, the whole process is intelligently realized, and the matching efficiency is improved.

After determining the end-housing type module, the embodiment may further match the intermediate housing type module, that is, execute step S200, and determine the intermediate housing type module according to the area parameter of the end-housing type module.

In particular, due to the diversity of the design of the standard layer, not only the end-house type but also the middle-house type exists. Therefore, after determining the end-housing type modules at two ends of the standard layer, the embodiment obtains the area parameters of the end-housing type modules, and determines the remaining housing type area in the standard layer according to the area parameters of the end-housing type modules, wherein the remaining housing type area in the standard layer is used for setting the middle housing type module. When the middle housing type module is provided, two may be provided, respectively located at the middle portion of the standard layer, as shown in fig. 2. Specifically, in this embodiment, the remaining house type area in the standard layer may be halved, so as to obtain two spatial areas with equal areas. And then, according to the two space areas with the same area, matching two middle house type modules with the same area from a preset house type module database.

In another implementation manner, the present embodiment may divide the remaining house type area in the standard layer into two to obtain two space areas, where the area of one space area is larger than the area of the other space area. And then matching a first middle house type module and a second middle house type module from a preset house type module database according to the two space areas, wherein the area of the first middle house type module is larger than that of the second middle house type module, namely the middle house type module with a large size is obtained, but the phase difference is not too large, and the surface width or the depth is still kept close. The embodiment enables the design of the whole standard to be more flexible through flexible configuration of the middle-set type module. In this embodiment, the matching of the middle house type module may be implemented based on a preset house type module database, in which a correspondence between the middle house type module and the area parameter is pre-stored, so that when the remaining house type area is obtained and the remaining house type area is divided into two, the corresponding middle house type module may be found based on the house type module database, and the matching of the middle house type module is completed.

After the middle housing type module is matched, the embodiment can match the core tube module according to the middle housing type module, that is, execute step S300, and determine the core tube module matched with the middle housing type module according to the middle housing type module.

In implementation, the embodiment obtains the width data of the middle housing type module. And then matching a core tube module corresponding to the width data from a preset house type module database according to the width data. That is, in this embodiment, the corresponding core tube module is searched based on the width data of the middle housing module, and if the sum of the widths of the middle housing module is greater than 12.6M, the first core tube is matched; when the sum of the widths of the intermediate ferrule type modules is less than 12.6M, then the second core barrel is matched. In this embodiment, the matching of the core tube module may also be implemented based on a preset house type module database, where a correspondence between the width data of the core tube module and the middle house type module is pre-stored in the house type module database. Therefore, after the width data of the middle housing type module is obtained, the corresponding core tube module can be found out from the housing type module database.

It can be seen that the embodiment is based on modularized house type design and combines an intelligent matching mode to realize house type design of a standard layer. And then determining the middle housing type module according to the area parameters of the end housing type module. And finally, according to the middle housing type module, determining a core tube module matched with the middle housing type module so as to complete the housing type module matching of the standard layer. According to the invention, the corresponding end-housing type module is automatically matched according to the site information, then the middle-housing type module and the core tube module are matched based on the end-housing type module, the middle-housing type module and the core tube module can be flexibly selected, and the whole process is realized based on intelligent matching, so that the design of the whole standard layer is efficiently completed, and the whole design flow is simplified.

Based on the above embodiment, as shown in fig. 3, this embodiment further provides an intelligent matching system for house type modules in a standard layer, including: an end-fitting pattern matching module 10, an intermediate fitting pattern matching module 20, and a core tube matching module 30. In this embodiment, the end-user type matching module 10 is configured to obtain site information, and determine, based on the site information, an end-user type module that matches the site information. The middle housing type matching module 20 is configured to determine a middle housing type module according to the area parameter of the end housing type module. The core tube matching module 30 is configured to determine, according to the intermediate housing type module, a core tube module that is matched with the intermediate housing type module, so as to complete housing type module matching of a standard layer.

Based on the above embodiment, the present invention also provides a terminal device, and a functional block diagram thereof may be shown in fig. 4. The terminal equipment comprises a processor, a memory, a network interface, a display screen and a temperature sensor which are connected through a system bus. Wherein the processor of the terminal device is adapted to provide computing and control capabilities. The memory of the terminal device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system and a computer program. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The network interface of the terminal device is used for communicating with an external terminal through a network connection. The computer program, when executed by the processor, implements a method for intelligent matching of house type modules in a standard layer. The display screen of the terminal equipment can be a liquid crystal display screen or an electronic ink display screen, and the temperature sensor of the terminal equipment is preset in the terminal equipment and is used for detecting the running temperature of the internal equipment.

It will be appreciated by persons skilled in the art that the functional block diagram shown in fig. 4 is merely a block diagram of some of the structures associated with the present inventive arrangements and is not limiting of the terminal device to which the present inventive arrangements are applied, and that a particular terminal device may include more or fewer components than shown, or may combine some of the components, or may have a different arrangement of components.

In one embodiment, a terminal device is provided, where the terminal device includes a memory, a processor, and an intelligent matching program for house type modules in a standard layer stored in the memory and capable of running on the processor, and when the processor executes the intelligent matching program for house type modules in the standard layer, the processor implements the following operation instructions:

acquiring site information, and determining an end-cap type module matched with the site information based on the site information;

determining a middle housing type module according to the area parameters of the end housing type module;

and determining a core tube module matched with the middle house type module according to the middle house type module so as to complete house type module matching of a standard layer.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

In summary, the invention discloses an intelligent matching method and system for house type modules in a standard layer, wherein the method comprises the following steps: acquiring site information, and determining an end-cap type module matched with the site information based on the site information; determining a middle housing type module according to the area parameters of the end housing type module; and determining a core tube module matched with the middle house type module according to the middle house type module so as to complete house type module matching of a standard layer. According to the invention, the corresponding end-housing type module is automatically matched according to the site information, then the middle-housing type module and the core tube module are matched based on the end-housing type module, and the whole process is realized based on intelligent matching, so that the design of the whole standard layer is efficiently completed, and the whole design flow is simplified.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (4)

1. An intelligent matching method for house type modules in a standard layer is characterized by comprising the following steps:

acquiring site information, and determining an end-cap type module matched with the site information based on the site information;

determining a middle housing type module according to the area parameters of the end housing type module;

according to the middle house type module, determining a core tube module matched with the middle house type module so as to complete house type module matching of a standard layer;

the obtaining the site information, determining an end-cap-type module matched with the site information based on the site information, comprises the following steps:

acquiring the site information, and determining position information corresponding to the site information according to the site information;

according to the position information, matching a corresponding end-cap-family type module from a preset family-type module database;

and matching the corresponding end-cap-family type module from a preset family-type module database according to the position information, wherein the end-cap-family type module comprises:

determining the distance between the position information and a preset lake scenery mark point according to the position information;

if the distance is smaller than a preset distance threshold, matching a first hall end housing type module from the housing type module database;

if the distance is greater than a preset distance threshold, a second hall end housing type module is matched from the house type module database, and the first hall end housing type module is set facing the lake scenery mark point;

the determining the middle housing type module according to the area parameters of the end housing type module comprises the following steps:

acquiring area parameters of the end-cap type module, and determining the remaining house type area in the standard layer according to the area parameters of the end-cap type module;

according to the residual house type area in the standard layer, matching an intermediate house type module from a preset house type module database;

and determining an intermediate housing type module from preset housing type module data according to the residual housing type area in the standard layer, wherein the method comprises the following steps:

dividing the residual house type area in the standard layer equally to obtain two space areas with equal areas;

according to the two space regions with the same area, two middle house type modules with the same area are matched from a preset house type module database;

and determining an intermediate housing type module from a preset housing type module database according to the residual housing type area in the standard layer, wherein the method comprises the following steps:

dividing the residual house type area in the standard layer into two parts to obtain two space areas, wherein the area of one space area is larger than that of the other space area;

according to the two space regions, a first middle house type module and a second middle house type module are matched from a preset house type module database, wherein the area of the first middle house type module is larger than that of the second middle house type module;

the determining, according to the intermediate housing type module, a core tube module matched with the intermediate housing type module includes:

acquiring width data of the middle housing type module;

and matching the core tube module corresponding to the width data from a preset house type module database according to the width data.

2. An intelligent matching system for house type modules in a standard layer, which is characterized by comprising:

the terminal housing type matching module is used for acquiring site information and determining a terminal housing type module matched with the site information based on the site information;

the middle housing type matching module is used for determining a middle housing type module according to the area parameters of the end housing type module;

the core tube matching module is used for determining a core tube module matched with the middle housing type module according to the middle housing type module so as to complete the housing type module matching of the standard layer;

the end-cap-type matching module is specifically used for:

acquiring the site information, and determining position information corresponding to the site information according to the site information;

according to the position information, matching a corresponding end-cap-family type module from a preset family-type module database;

and matching the corresponding end-cap-family type module from a preset family-type module database according to the position information, wherein the end-cap-family type module comprises:

determining the distance between the position information and a preset lake scenery mark point according to the position information;

if the distance is smaller than a preset distance threshold, matching a first hall end housing type module from the housing type module database;

if the distance is greater than a preset distance threshold, a second hall end housing type module is matched from the house type module database, and the first hall end housing type module is set facing the lake scenery mark point;

the middle house type matching module is specifically used for:

acquiring area parameters of the end-cap type module, and determining the remaining house type area in the standard layer according to the area parameters of the end-cap type module;

according to the residual house type area in the standard layer, matching an intermediate house type module from a preset house type module database;

and determining an intermediate housing type module from preset housing type module data according to the residual housing type area in the standard layer, wherein the method comprises the following steps:

dividing the residual house type area in the standard layer equally to obtain two space areas with equal areas;

according to the two space regions with the same area, two middle house type modules with the same area are matched from a preset house type module database;

and determining an intermediate housing type module from a preset housing type module database according to the residual housing type area in the standard layer, wherein the method comprises the following steps:

dividing the residual house type area in the standard layer into two parts to obtain two space areas, wherein the area of one space area is larger than that of the other space area;

according to the two space regions, a first middle house type module and a second middle house type module are matched from a preset house type module database, wherein the area of the first middle house type module is larger than that of the second middle house type module;

the core tube matching module is specifically used for:

acquiring width data of the middle housing type module;

and matching the core tube module corresponding to the width data from a preset house type module database according to the width data.

3. A terminal device, characterized in that the terminal device comprises a memory, a processor and an intelligent matching program for house type modules in a standard layer stored in the memory and capable of running on the processor, wherein the processor implements the steps of the intelligent matching method for house type modules in a standard layer as claimed in claim 1 when executing the intelligent matching program for house type modules in a standard layer.

4. A computer readable storage medium, wherein the computer readable storage medium stores an intelligent matching program for house type modules in a standard layer, and the intelligent matching program for house type modules in the standard layer realizes the steps of the intelligent matching method for house type modules in the standard layer as claimed in claim 1 when being executed by a processor.