CN112364416B - Design method and system of nuclear power station door watch - Google Patents

Design method and system of nuclear power station door watch Download PDF

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Publication number
CN112364416B
CN112364416B CN202011174904.8A CN202011174904A CN112364416B CN 112364416 B CN112364416 B CN 112364416B CN 202011174904 A CN202011174904 A CN 202011174904A CN 112364416 B CN112364416 B CN 112364416B
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door
door body
information
nuclear power
opening
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CN112364416A (en
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冯振虎
刘利军
陈丽
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China General Nuclear Power Corp
China Nuclear Power Engineering Co Ltd
CGN Power Co Ltd
Shenzhen China Guangdong Nuclear Engineering Design Co Ltd
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China General Nuclear Power Corp
China Nuclear Power Engineering Co Ltd
CGN Power Co Ltd
Shenzhen China Guangdong Nuclear Engineering Design Co Ltd
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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F30/00Computer-aided design [CAD]
    • G06F30/10Geometric CAD
    • G06F30/13Architectural design, e.g. computer-aided architectural design [CAAD] related to design of buildings, bridges, landscapes, production plants or roads
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F30/00Computer-aided design [CAD]
    • G06F30/10Geometric CAD
    • G06F30/12Geometric CAD characterised by design entry means specially adapted for CAD, e.g. graphical user interfaces [GUI] specially adapted for CAD

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Abstract

The invention provides a design method of a nuclear power station door table, which comprises the following steps: creating a door opening cube, and extracting door body parameter information according to the door opening cube; analyzing the function requirements of the door body and obtaining attribute categories corresponding to each function requirement; performing logic judgment on the attribute category to acquire the function combination information of the door body; generating a three-dimensional door model and an opening space according to the door parameter information and the function combination information; and outputting a door table through the three-dimensional door model. The invention further provides a design system of the nuclear power station door table. According to the design method and system of the nuclear power station door table, through automatic three-dimensional modeling of the door body, automatic operation output of the functional principle of the door body is achieved, and workload is reduced.

Description

Design method and system of nuclear power station door watch
[ field of technology ]
The invention relates to the technical field of door watches, in particular to a design method and system of a nuclear power station door watch.
[ background Art ]
In industrial engineering design such as nuclear power, a published door list is required to be designed for door purchasing. In general, the gate list needs to include information as shown in fig. 1, and the gate list design workload is very large due to the complexity of the data types of the carding and the technical analysis related to the fields of different dimensions.
The prior art scheme is that firstly, each item of data information is carded one by one to form an initial list, and then the function information of the door is shown in a two-dimensional factory layout diagram to check the rationality of the function configuration and carry out adaptability optimization. And then, according to the size, the opening information and the function type of the door, carrying out three-dimensional modeling on the door, checking the feasibility of the installation and opening space of the door, optimizing the arrangement scheme of the installation and opening area of the door, and giving limit requirements of a tongue-and-groove of the door in combination with the installation condition. And finally, perfecting the two-dimensional information to form a final gate list.
However, in the prior art, two-dimensional data mining and three-dimensional modeling of a door are two independent tasks, and the workload is great. After the two-dimensional data is changed, the three-dimensional model information cannot be updated synchronously. After the problem is found in the three-dimensional modeling, not only is the two-dimensional data adjusted, but also the three-dimensional model needs to be maintained again. In addition, the function model selection of the door is to perform independent analysis according to each single dimension, compatibility problems among functions in different dimensions need to be gradually identified and eliminated in the design of the subsequent links, the design steps are complicated, and the risk of human omission is high. When the function selection principle is modified, all design flows need to be restarted.
In view of the foregoing, it is desirable to provide a new design method and system for a nuclear power station door watch to overcome the above-mentioned drawbacks.
[ invention ]
The invention aims at: the design method and the system for the nuclear power station door table realize the automatic operation output of the functional principle of the door body through the automatic three-dimensional modeling of the door body, and reduce the workload.
In order to achieve the above object, in a first aspect, the present invention provides a method for designing a nuclear power station door table, including the steps of: creating a door opening cube, and extracting door body parameter information according to the door opening cube; analyzing the function requirements of the door body and obtaining attribute categories corresponding to each function requirement; performing logic judgment on the attribute category to acquire the function combination information of the door body; generating a three-dimensional door model and an opening space according to the door parameter information and the function combination information; and outputting a door table through the three-dimensional door model.
In a preferred embodiment, the step of creating a door opening cube and extracting door body parameter information according to the door opening cube comprises the steps of: defining diagonal corner point information of one surface of the door opening cube; and acquiring parameter information of the door body according to the diagonal corner information.
In a preferred embodiment, the step of creating a door opening cube and extracting door body parameter information according to the door opening cube comprises the steps of: the door opening cube extends to two sides to obtain room coding information on two sides of the door body; and the door opening cube extends downwards to obtain the installation structure layer and the finishing surface elevation information of the door body.
In a preferred embodiment, the step of creating a door opening cube and extracting door body parameter information according to the door opening cube comprises the steps of: after the door opening cube is created, an initial door body model is generated; detecting rationality of the initial door body model; and when the design of the initial door body model is unreasonable, sending out a prompt message for reporting errors.
In a preferred embodiment, the step of logically determining the attribute type to obtain the functional combination information of the door body includes the following steps: performing single logic judgment on the attribute category corresponding to each function requirement, and determining a preliminary function category; combining compatibility requirements among the plurality of preliminary function categories, and carrying out comprehensive logic judgment on the plurality of preliminary function categories; and outputting the finally required function combination information according to the comprehensive logic judgment result.
In a preferred embodiment, the step of generating a three-dimensional door model and an open space according to the door parameter information and the function combination information includes the steps of: performing interference detection on the three-dimensional door model and the opening space; and when the three-dimensional door model and the opening space interfere with surrounding objects, sending out a wrong prompt message.
In a preferred embodiment, the step of sending a warning message of a fault when the three-dimensional door model and the opening space interfere with surrounding objects includes the following steps: when the interference is tongue-and-groove interference, sending out prompt information for modifying the size of the tongue-and-groove; and when the interference is the opening interference, sending out prompt information for adjusting the interference item.
In a preferred embodiment, the door parameter information includes size information, positioning information, and opening direction information.
In a preferred embodiment, the functional requirements include shielding requirements, airtight requirements, fire protection requirements, thermal insulation requirements, and sound insulation requirements.
In a second aspect, the invention also provides a design system of the nuclear power station door table, which comprises a creation module, an analysis module, a judgment module, a generation module and an output module; the creation module is used for creating a door opening cube and extracting door body parameter information according to the door opening cube; the analysis module is used for analyzing the functional requirements of the door body and obtaining attribute categories corresponding to each functional requirement; the judging module is used for carrying out logic judgment on the attribute category to acquire the function combination information of the door body; the generating module is used for generating a three-dimensional door model and opening a virtual space according to the door parameter information and the function combination information; the output module is used for outputting a door table through the three-dimensional door body model.
Compared with the prior art, the design method and the system of the nuclear power station door table can extract door body parameter information such as door body size, opening direction and the like by creating the door opening cube, and can automatically identify related elevation and room information on two sides; the logical output of the gate function design can be realized, and other function information output can be expanded based on the logical output; in addition, the problems of unreasonable functions, collision and the like in the design process can give error reporting prompts at the first time, so that designers can be helped to check the problems early and comprehensively, the design quality is better ensured, and the workload is greatly reduced.
In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.
[ description of the drawings ]
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.
FIG. 1 is a prior art diagram of information categories of a portal list;
FIG. 2 is a schematic block diagram of a design system for a nuclear power plant door watch provided by the invention;
FIG. 3 is a flow chart of a method for designing a nuclear power station door table provided by the invention;
fig. 4 is a flow chart of substep of step S30 of the design method of the nuclear power station door table provided by the invention;
fig. 5 is a logic determination flow chart of airtight function requirement and shielding function requirement of the design method of the nuclear power station door table provided by the invention.
[ detailed description ] of the invention
The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present invention.
Referring to fig. 2, a schematic block diagram of a design system 100 of a nuclear power station door watch according to the present invention is shown. The invention provides a design system 100 of a nuclear power station door table, which comprises a creation module 10, an analysis module 20, a judgment module 30, a generation module 40 and an output module 50.
The creation module 10 is used for creating a door opening cube and extracting door body parameter information according to the door opening cube; the analysis module 20 is configured to analyze the functional requirements of the door body, and obtain attribute types corresponding to each of the functional requirements; the determining module 30 is configured to perform logic determination on the attribute type, and obtain functional combination information of the door body; the generating module 40 is configured to generate a three-dimensional door model and open a virtual space according to the door parameter information and the function combination information; the output module 50 is configured to output a door table through the three-dimensional door model.
It will be appreciated that the configuration shown in fig. 2 is merely illustrative, and that the design system 100 of the nuclear power plant door check meter may also include more or fewer components than shown in fig. 2, or have a different configuration than shown in fig. 2. The components shown in fig. 2 may be implemented in hardware, software, or a combination thereof.
The above functional modules are described in detail below in conjunction with fig. 3.
Fig. 3 is a flowchart of a design method of a nuclear power station door table provided by the invention. It should be noted that the method of the present invention is not limited to the order of the steps described below, and in other embodiments, the method of the present invention may include only a part of the steps described below, or some of the steps may be deleted.
The invention provides a design method of a nuclear power station door table, which comprises the following steps:
step S10: and creating a door opening cube, and extracting door body parameter information according to the door opening cube. The method comprises the steps of giving parameter information related to a door body structure at the beginning of door opening modeling by means of a three-dimensional model design platform, specifically creating a door opening cube in a three-dimensional model, defining diagonal corner point information of one face of the door opening cube, and acquiring the parameter information of the door body according to the diagonal corner point information. It can be understood that the size information of the door opening cube, that is, the net size of the door opening, the plane in which the diagonal line is located, that is, the azimuth of the tongue-and-groove, and the side in which the upper corner point is located, that is, the azimuth of the door shaft, so that the size information, the positioning information and the opening direction information of the door body can be obtained through data extraction parameters.
Further, the door opening cube extends to two sides to obtain room coding information on two sides of the door body; and the door opening cube extends downwards to acquire the installation structure layer and the finishing surface elevation information of the door body, so that the door opening cube can automatically identify the associated elevation and the room information on two sides.
Further, after the door opening cube is created, an initial door body model can be generated; detecting rationality of the initial door body model; and when the design of the initial door body model is unreasonable, sending out a prompt message for reporting errors. Specifically, the initial door body model contains initial general tongue-and-groove information for the designer carries out preliminary discernment to the rationality of door body installation and opening space, if the tongue-and-groove size in the initial door body model does not accord with the design demand, sends the suggestion information that reports the mistake and reminds the designer to manually assign to tongue-and-groove size, can help the designer to examine the problem early, can guarantee the design quality better.
Step S20: and analyzing the function requirements of the door body, and obtaining attribute categories corresponding to each function requirement. Specifically, depth analysis is performed on various functional requirements, and finally, the functional requirements and the attribute types of the room attribute and the door opening position form corresponding logic relations. Taking the shielding function requirement as an example, firstly, carding whether logic association information of a shielding door needs to be set or not, and specifically considering maze wall setting, room radioactivity level attributes on two sides and the like; and then combing out parameter information required by shielding thickness calculation, wherein the relative distance between a door opening and a radioactive source, the radioactivity level attribute of rooms at two sides and the like are specifically considered. It can be appreciated that the functional requirements further include airtight requirements, fireproof requirements, thermal insulation requirements, sound insulation requirements, and the like, and other various functional requirements all adopt the same strategy to determine the attribute category to which each functional requirement belongs.
Step S30: and carrying out logic judgment on the attribute category to acquire the function combination information of the door body. Specifically, referring to fig. 4, step S30 includes the following sub-steps:
step S301: and carrying out single logic judgment on the attribute category corresponding to each function requirement, and determining the preliminary function category.
Step S302: and combining compatibility requirements among the plurality of preliminary function categories to perform comprehensive logic determination on the plurality of preliminary function categories.
Step S303: and outputting the finally required function combination information according to the comprehensive logic judgment result.
It can be understood that, according to the attribute category of the step S20, the preliminary function category is determined by a single logic determination module; and combining compatibility requirements among the function categories, and outputting a finally required function combination through the comprehensive logic judging module. For example, when the semi-airtight requirements overlap with the fire protection requirements, only the fire protection requirements remain; when the shielding requirement is overlapped with the airtight requirement, a mistake is required to be reported to remind a designer to adjust the functional attribute of the room, so that overlapping conflict of the two functions is avoided.
Please refer to fig. 5, which is a logic determination flow chart of the airtight function requirement and the mask function requirement. It will be appreciated that the determination of other functional requirement classes is similar and will not be described in detail herein.
Step S40: and generating a three-dimensional door model and an opening space according to the door parameter information and the function combination information. Further, after a three-dimensional door body model and an opening space are generated, interference detection is carried out on the three-dimensional door body model and the opening space; and when the three-dimensional door model and the opening space interfere with surrounding objects, sending out a wrong prompt message. Specifically, when the interference is tongue-and-groove interference, a prompting message for modifying the size of the tongue-and-groove is sent out; when the interference is the opening interference, a prompt message for adjusting the interference item is sent out so as to remind a designer to modify the size of the tongue and groove or modify the design, and the interference problem of the opening space is avoided.
Step S50: the door table is directly output through the three-dimensional door body model, two-dimensional data carding is not needed in the design process of the door table, compatibility problems among functions in different dimensions are not needed to be considered, and automatic operation output of the function principle of the door body is realized through automatic three-dimensional modeling of the door body, so that the workload is reduced.
According to the design method of the nuclear power station door table, a complex door table design flow is split and carded logically, and a corresponding logic operation flow is designed, so that a series of works such as door body modeling, door body collision checking and the like can be completed while the design of door table information is completed through the maintenance of some basic information; by means of the three-dimensional model design platform, parameter information related to a door body structure is given at the beginning of door opening modeling, error reporting prompts can be given at the first time when problems such as unreasonable functions and collision occur in the design process, designers can be helped to check the problems early and comprehensively, and design quality is better guaranteed; the platform data of the gate table design automation technology can be used for conveniently and rapidly expanding corresponding logic functions, so that information required by other design works is derived, and the workload is greatly reduced.
It should be noted that, all embodiments of the design method of the nuclear power station door watch provided by the present invention are applicable to the design system 100 of the nuclear power station door watch provided by the present invention, and all the same or similar beneficial effects can be achieved. It can be appreciated that the design method and the system of the gate meter provided by the invention are not limited to be applied to the technical field of nuclear power, but can be applied to the fields of thermal power and other complex engineering.
In summary, according to the design method and the system 100 of the nuclear power station door table, through creating the door opening cube, door body parameter information such as door body size, opening direction and the like can be extracted, and associated elevation and room information on two sides can be automatically identified; the logical output of the gate function design can be realized, and other function information output can be expanded based on the logical output; in addition, the problems of unreasonable functions, collision and the like in the design process can give error reporting prompts at the first time, so that designers can be helped to check the problems early and comprehensively, the design quality is better ensured, and the workload is greatly reduced.
The foregoing description is only of embodiments of the present invention, and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes using the descriptions and the drawings of the present invention or directly or indirectly applied to other related technical fields are included in the scope of the present invention.

Claims (10)

1. The design method of the nuclear power station door table is characterized by comprising the following steps of:
creating a door opening cube, and extracting door body parameter information according to the door opening cube;
analyzing the function requirements of the door body and obtaining attribute categories corresponding to each function requirement;
performing logic judgment on the attribute category to acquire the function combination information of the door body;
generating a three-dimensional door model and an opening space according to the door parameter information and the function combination information;
and outputting a door table through the three-dimensional door model.
2. The method for designing a nuclear power plant door table according to claim 1, wherein the step of creating a door opening cube and extracting door body parameter information according to the door opening cube comprises the steps of:
defining diagonal corner point information of one surface of the door opening cube;
and acquiring parameter information of the door body according to the diagonal corner information.
3. The method for designing a nuclear power plant door table according to claim 1, wherein the step of creating a door opening cube and extracting door body parameter information according to the door opening cube comprises the steps of:
the door opening cube extends to two sides to obtain room coding information on two sides of the door body; a kind of electronic device with high-pressure air-conditioning system
And the door opening cube extends downwards to acquire the installation structure layer and the finishing surface elevation information of the door body.
4. The method for designing a nuclear power plant door table according to claim 1, wherein the step of creating a door opening cube and extracting door body parameter information according to the door opening cube comprises the steps of:
after the door opening cube is created, an initial door body model is generated;
detecting rationality of the initial door body model;
and when the design of the initial door body model is unreasonable, sending out a prompt message for reporting errors.
5. The method for designing a nuclear power station door table according to claim 1, wherein the step of logically determining the attribute category to obtain the functional combination information of the door body comprises the steps of:
performing single logic judgment on the attribute category corresponding to each function requirement, and determining a preliminary function category;
combining compatibility requirements among the plurality of preliminary function categories, and carrying out comprehensive logic judgment on the plurality of preliminary function categories;
and outputting the finally required function combination information according to the comprehensive logic judgment result.
6. The method for designing a nuclear power plant door table according to claim 1, wherein the step of generating a three-dimensional door model and an open space based on the door parameter information and the function combination information comprises the steps of:
performing interference detection on the three-dimensional door model and the opening space;
and when the three-dimensional door model and the opening space interfere with surrounding objects, sending out a wrong prompt message.
7. The method for designing a nuclear power station door table according to claim 6, wherein the step of sending out a warning message of a fault when the three-dimensional door body model and the opening space interfere with surrounding items comprises the steps of:
when the interference is tongue-and-groove interference, sending out prompt information for modifying the size of the tongue-and-groove; a kind of electronic device with high-pressure air-conditioning system
And when the interference is the opening interference, sending out prompt information for adjusting the interference item.
8. The method for designing a nuclear power plant door table according to claim 1, wherein the door body parameter information includes size information, positioning information and opening direction information.
9. The method of designing a nuclear power plant door skin as recited in claim 1, wherein the functional requirements include shielding requirements, airtight requirements, fire protection requirements, thermal insulation requirements, and sound insulation requirements.
10. The design system of the nuclear power station door table is characterized by comprising a creation module, an analysis module, a judgment module, a generation module and an output module; the creation module is used for creating a door opening cube and extracting door body parameter information according to the door opening cube; the analysis module is used for analyzing the functional requirements of the door body and obtaining attribute categories corresponding to each functional requirement; the judging module is used for carrying out logic judgment on the attribute category to acquire the function combination information of the door body; the generating module is used for generating a three-dimensional door model and opening a virtual space according to the door parameter information and the function combination information; the output module is used for outputting a door table through the three-dimensional door body model.
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