CN112507407B

CN112507407B - Functional modular pipeline arrangement method, system, equipment and medium

Info

Publication number: CN112507407B
Application number: CN202011461854.1A
Authority: CN
Inventors: 李吉; 朱明华; 朱煜; 崔光润; 杨义干; 张欣; 唐能; 向书晗
Original assignee: Jiangnan Shipyard Group Co Ltd
Current assignee: Jiangnan Shipyard Group Co Ltd
Priority date: 2020-12-10
Filing date: 2020-12-10
Publication date: 2022-12-20
Anticipated expiration: 2040-12-10
Also published as: CN112507407A

Abstract

The invention provides a functional modularized pipeline arrangement method, a system, equipment and a computer storage medium; according to the method, the pipeline function module corresponding to the current working area is read and displayed through acquiring the area position information of the current working area, each function pipeline element in the pipeline function module is configured according to the attribute information of an external pipeline element, and the pipeline function module is connected with the external pipeline through connecting a first external interface sub-element and a first internal interface sub-element, so that the pipeline arrangement of the current working area is realized, the method has the advantages of high efficiency, convenience and the like, the pipeline design efficiency is improved, and the pipeline design quality is also improved.

Description

Functional modular pipeline arrangement method, system, equipment and medium

Technical Field

The invention relates to the technical field of pipeline models, in particular to a functional modularized pipeline arrangement method, a functional modularized pipeline arrangement system, functional modularized pipeline arrangement equipment and a computer storage medium.

Background

The pipeline layout of the ship is one of important contents of ship design, and the pipeline layout is comprehensively arranged by designers according to the pipeline layout principle and by combining the spatial distribution and performance parameters of a ship body structure and other outfitting elements. The quality of the comprehensive arrangement of the pipelines directly influences the construction working hours of the ship pipelines and the reliability of the ship operation. Because, pipeline arrangement is influenced by hull structure and equipment specification etc. greatly, and the structure and the function of different hulls are all inequality for the pipeline arrangement achievement is difficult to direct reuse, consequently, pipeline arrangement's the work degree of difficulty is big and consuming time, and, at the arrangement in-process of pipeline, the designer often need carry out many-sided comprehensive consideration, including the original way of pipeline design, and all kinds of pipeline design specifications, and on this basis, still need consider maintainability, maneuverability, convenience, aesthetic property etc. of pipeline. The design emphasis of each functional area is often different in the comprehensive arrangement process of the ship pipeline, for example, the design emphasis of an engine room area is maintainability and operability of the pipeline, a passage area needs to preferentially ensure safety, convenience, attractiveness and the like of passage, an open deck mainly focuses on invisibility, attractiveness and the like of the pipeline, and the requirements are difficult to quantitatively judge and standardize and are mainly determined by the experience of a designer. Therefore, according to the same pipeline principle, different designers are difficult to form a uniform design standard due to different experiences, the arranged pipeline models are often different greatly, the quality is uneven, and the pipeline models with poor quality often have the problems of unreasonable space utilization, mutual collision and the like, so that the pipeline arrangement efficiency is further reduced, and even potential safety hazards of use can be caused.

Therefore, how to efficiently and quickly realize pipeline arrangement and enable pipeline arrangement results of different designers to meet unified design requirements has become a technical problem to be solved in the field.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, an object of the present invention is to provide a method, a system, a device and a computer storage medium for pipeline layout with modular functions, which are used to solve the problems of long time consumption, low efficiency, irregular pipeline layout, etc. caused by low reuse rate of pipeline layout results in the existing pipeline layout process.

To achieve the above and other related objects, the present invention provides a functional modular piping arrangement method, comprising: determining a current working area, and acquiring regional position information of the current working area; the current working area comprises an external pipeline element; acquiring positioning information for placing the pipeline to be arranged in the current working area; acquiring the pipeline function module corresponding to the current working area according to the area position information, and displaying the pipeline function module in an area corresponding to the positioning information according to the positioning information; the pipeline function module comprises one or more functional pipeline elements; obtaining a first external interface sub-element in the external pipeline element and obtaining a first internal interface sub-element in the pipeline function module; connecting the first external interface sub-element and a first internal interface sub-element; and acquiring external attribute information of the external pipeline element, and configuring each functional pipeline element in the pipeline functional module according to the external attribute information so as to acquire a pipeline arrangement result of the current working area.

In an embodiment of the present invention, when the pipeline function module includes a plurality of functional pipeline elements, the pipeline function module includes connection information between the functional pipeline elements, and after the pipeline function module corresponding to the current working area is obtained according to the area position information, the method further includes: and generating connecting pipe elements for connecting the functional pipeline elements according to the connecting information.

In an embodiment of the present invention, after displaying the area of the pipeline function module corresponding to the positioning information according to the positioning information, the method further includes: and responding to the component selection command and the displacement command, and adjusting the position of the functional pipeline component selected by the component selection command according to the displacement command.

In an embodiment of the present invention, the implementation manner of obtaining the external attribute information of the external pipeline element includes: reading attribute information of each external pipeline element to obtain total attribute information of the external pipeline elements; detecting whether the number of attribute value items of the same attribute category in the total attribute information is greater than 1; if not, taking the attribute value as the external attribute information of the attribute category, if so, displaying all attribute values corresponding to the attribute category, and waiting for receiving an attribute value selection instruction; and when the attribute value selection instruction is received, responding to the selection instruction, and taking the attribute value corresponding to the selection instruction as the external attribute information of the attribute category.

In an embodiment of the present invention, the configuring, according to the attribute information of the external pipeline element, an implementation manner of each functional pipeline element in the pipeline functional module includes: reading a component database associated with the functional pipeline component, wherein each pipeline component instance is stored in the component database in advance; inquiring whether an element example meeting a preset attribute matching condition exists according to the attribute information of the external pipeline element; if not, returning the information of the non-matching pipeline element example; if so, replacing the functional pipeline element in the pipeline function module by adopting the pipeline element example, or associating the attribute parameters of the functional pipeline element into the inquired attribute information of the pipeline element example meeting the preset attribute matching condition.

In an embodiment of the present invention, before configuring each of the functional pipeline elements in the pipeline functional module according to the attribute information of the external pipeline element, the method further includes: for a single functional pipeline element, detecting whether the attribute information of the functional pipeline element is matched with the attribute information of the external pipeline, if so, setting the functional pipeline element as a functional pipeline element example, and not executing the step of configuring each functional pipeline element in the pipeline functional module according to the attribute information of the external pipeline element; if not, the step is executed.

In an embodiment of the present invention, the method further includes: constructing a pipeline function module database for storing the position information of the current working area and the associated information between the pipeline function modules; and constructing a pipeline element database for storing information of each pipeline element instance.

The invention also provides a functionally modular piping system, the system comprising: the working area selection module is used for determining a current working area and acquiring the area position information of the current working area; the current working area comprises an external pipeline element; the positioning information input module is used for responding to a positioning instruction and acquiring positioning information for placing the pipeline to be arranged; the pipeline function display module is used for acquiring the pipeline function module corresponding to the current working area according to the area position information and displaying the pipeline function module in the area corresponding to the positioning information according to the positioning information; the connecting module is used for acquiring a first external interface sub-element in the external pipeline element, acquiring a first internal interface sub-element in the pipeline function module, and connecting the first external interface sub-element and the first internal interface sub-element; and the pipeline function configuration module is used for acquiring external attribute information of the external pipeline element and configuring each functional pipeline element in the pipeline function module according to the external attribute information.

In an embodiment of the present invention, the configuring, according to the attribute information of the external pipeline element, an implementation manner of each functional pipeline element in the pipeline functional module includes: reading the pipeline element database, wherein each pipeline element instance is stored in the element database in advance; inquiring whether an element instance meeting preset attribute matching conditions exists according to the attribute information of the external pipeline element; if not, returning the information of the non-matching pipeline element example; if so, replacing the functional pipeline element in the pipeline functional module by adopting the pipeline element example; or the attribute parameters of the functional pipeline element are related to the inquired attribute information of the pipeline element instance meeting the preset attribute matching condition.

In an embodiment of the present invention, the system further includes: function pipeline detection module: the module is used for detecting whether the attribute information of the single functional pipeline element is matched with the attribute information of the external pipeline, if so, the module is exited; if not, triggering the pipeline function configuration module to execute the configuration process.

The present invention also provides an electronic device including: a processor and a memory; the memory is configured to store a computer program, and the processor is configured to execute the computer program stored in the memory to cause the electronic device to perform the functional modular tubing placement method as described above.

The invention finally provides a computer storage medium, in which a computer program is stored which, when being executed by a processor, implements the functional modular line routing method as described above.

As described above, according to the functional modular pipeline layout method, system, device and computer storage medium of the present invention, the connection relationship between the functional pipeline element corresponding to the current working area and each functional pipeline element is obtained according to the position information of the working area; configuring each functional pipeline element in the pipeline functional module according to the external attribute information of the external pipeline element, and realizing that information such as pipeline design knowledge, specification, examples and the like corresponding to a working area is instantly pushed to designers in a data form, so that rapid, convenient, efficient and accurate pipeline arrangement can be realized, and meanwhile, each arranged functional pipeline element is ensured to meet the actual specification requirement; and the pipeline connection modes with the same function realize the reutilization and the unified modification in different working areas by calling the corresponding pipeline function modules, thereby not only greatly improving the efficiency of pipeline design, but also ensuring the uniformity and the specification of the arrangement modes of the same pipeline functions of all ship bodies, and greatly improving the quality of the pipeline design.

Drawings

Fig. 1 is a schematic flow chart illustrating a functional modular piping arrangement method according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of the functional modular piping system according to an embodiment of the present invention; description of the element reference

S102 to S110

1. Functional modular pipeline arrangement system

11. Work area fixed module

12. Positioning information input module

13. Pipeline function display module

14. Connection module

15. Pipeline function configuration module

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be easily understood by those skilled in the art from the disclosure of the present specification. The invention is capable of other and different embodiments and of being practiced or of being carried out in various ways, and its several details are capable of modification in various respects, all without departing from the spirit and scope of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

It should be noted that the drawings provided in the following embodiments are only for illustrating the basic idea of the present invention in a schematic way.

The invention provides a function modularized pipeline arrangement method and a function modularized pipeline arrangement system, which are used for calling a pipeline function module corresponding to a current working area in the current working area of a pipeline to be arranged, and configuring attribute parameters of each pipeline element in the pipeline function module based on attribute characteristics of an external pipeline so as to realize the adaptation of the pipeline function module and the external pipeline, thereby realizing the pipeline arrangement in a working space.

The pipeline function module is a preset combination of one or more functional pipeline elements for realizing the same or similar pipeline function; for example, a water inlet pipeline function module in a seawater cooling system comprises three remote control butterfly valves and matched flanges and gaskets thereof, and can be used for realizing the water inlet function of the seawater cooling system under daily and emergency conditions.

Example 1

Referring to fig. 1, a flow chart of the functional modular pipeline layout method provided by the present invention in an embodiment is shown, and the method is applicable to a computer aided design process of pipeline layout in ship design.

In this embodiment, the functional modular pipeline layout method is applied to a three-dimensional platform, and the three-dimensional platform includes a processing unit and a display unit. It is noted that the method may also be performed by a functionally modular tubing arrangement system provided by an embodiment of the present invention, or may be performed by an apparatus provided by an embodiment of the present invention.

As shown in fig. 1, the functional modular pipeline arranging method includes:

s102, determining a current working area, and acquiring area position information of the current working area; the current operating zone includes an external piping element therein.

Specifically, an externally input working area selecting instruction is received, a working area of a pipeline to be arranged is selected in the computer model of the ship as a current working area according to the working area selecting instruction, and the area position information of the current working area in the cabin computer model is obtained; an external pipeline element is included in the surrounding area of the current working area; the external pipe elements are already arranged for connecting pipe elements of the pipe to be arranged.

In this embodiment, the ship computer model is a spatial three-dimensional model.

And S104, receiving an input positioning instruction, and acquiring positioning information used for placing the pipeline to be arranged in the current working area according to the positioning instruction.

Specifically, the positioning instruction input from the outside is received, and positioning information for placing the pipeline to be arranged, including coordinate information of a positioning point or a positioning area, is obtained according to the positioning instruction.

And S106, acquiring the information of the pipeline function module corresponding to the current working area according to the regional position information of the current working area, and displaying the pipeline elements in the pipeline function module according to the positioning information.

Specifically, according to the regional position information of the current working area, based on the preset mapping relationship information between the pipeline function module and the regional position of the current working area, the pipeline function module information corresponding to the working area is obtained; and according to the positioning information, displaying the pipeline elements in the functional pipelines at the positions corresponding to the positioning information.

The pipeline function module information, the area position information and the mapping relation between the pipeline function module information and the area position information are stored in a pipeline function database which is established in advance, so that the corresponding pipeline function module can be quickly and conveniently found according to the area position information.

The pipeline function module information comprises element information of each functional pipeline element in the pipeline function module, and comprises element type information and element attribute information; the element attribute information comprises an attribute category of the pipeline element and an attribute value corresponding to the attribute category. The pipeline elements of the same kind comprise different attribute information, namely different attribute categories and corresponding attribute values; for example, the property category of the tube includes length, thickness, material, etc., and different property categories correspond to different property values.

In this embodiment, in the pipeline function database, according to the area position information of the current working area, the pipeline function module information corresponding to the area position information of the current working area, for example, the seawater cooling system water inlet function module information, where the pipeline elements in the seawater cooling system water inlet function module include a remote control butterfly valve, a flange, and a gasket, and the seawater cooling system water inlet function module information includes the type information and the element attribute information of each pipeline element; and displaying each pipeline element in the current working area according to the positioning information.

In a specific embodiment, the component attribute information of each functional pipeline component in the pipeline functional module is default information or null information, that is, the component attribute value of each functional pipeline component is a default value or null value.

Further, when the pipeline function module includes a plurality of functional pipeline elements, the pipeline function module information further includes connection information for indicating a connection relationship between the functional pipeline elements, and each connection relationship satisfies a pipeline design principle and/or a design specification corresponding to the pipeline function module. After reading the pre-stored pipeline function module corresponding to the work area, the method further comprises:

generating a connecting pipe fitting for connecting the functional pipeline elements according to the connection information; therefore, the connection relation between the functional pipeline elements can be visually displayed, each design principle and each design specification can be instantiated into the corresponding pipeline functional module more conveniently, accurately and efficiently, so that ship designers can obtain pipeline arrangement knowledge, specifications and the like more conveniently, quickly and accurately, and adjust and optimize according to different ship types or different working areas.

In the arrangement process of the ship pipeline, the spatial characteristics and the arrangement requirements of different working areas are different, so that the arrangement of pipeline elements with the same function is required to be adjusted in position by combining a specific working scene and the arrangement requirements; further, in step S106, after the displaying the pipeline function module according to the positioning information, the method further includes:

and receiving an input element selection instruction and a position instruction, and adjusting the position of the functional pipeline element selected by the element selection instruction according to the displacement instruction.

Specifically, a selected instruction of the pipeline element is obtained, and the selected functional pipeline element needing to be adjusted in position is determined; and acquiring a displacement instruction, and adjusting the position information of the selected functional pipeline element according to displacement information contained in the displacement instruction so as to acquire the pipeline functional module matched with the current working area.

S108, acquiring a first external interface sub-element in the external pipeline element and acquiring a first internal interface sub-element in the pipeline function module; connecting the first external interface sub-element and the first internal interface sub-element to effect a connection between the pipeline function module and the external pipeline element.

The external pipe element comprises one or more external interface sub-elements, which are interfaces not connected in the external pipe element and are used for connecting other pipe elements.

The functional pipeline element in the pipeline functional module comprises an internal interface sub-element which is an interface used for being in butt joint with the external pipeline element in the functional pipeline element.

Specifically, an input first external interface selection instruction is received, and according to the first external interface selection instruction, a first external interface subelement is determined in each external interface subelement and is used for connecting a pipeline to be arranged in the current working area; receiving an input first internal interface selection instruction, and determining a first internal interface sub-element as an internal interface sub-element for connecting the external pipeline in each internal interface sub-element according to the first internal interface selection instruction; and respectively acquiring the position information of the first internal interface sub-element and the first external interface sub-element, and generating a connecting pipe fitting for respectively connecting the first internal interface sub-element and the first external interface sub-element according to the position information of the first internal interface sub-element and the first external interface sub-element, thereby realizing the connection between the external pipeline object and the pipeline function module.

Further, the manner of obtaining the first external interface sub-element in the external pipe element and obtaining the first internal interface sub-element in the pipe function module further includes: receiving a first external interface selection instruction, determining the first external interface sub-element according to the first external interface selection instruction, and acquiring external interface identification information in the first external interface sub-element as first external interface identification information; acquiring internal interface identification information of each internal interface sub-element in the functional pipeline element; detecting whether an internal interface sub-element with the internal interface identification information matched with the external interface identification information exists in each internal interface sub-element according to the first external interface identification information and a preset interface information configuration relation table; if so, determining the adapted internal interface sub-element as the first internal interface sub-element.

Wherein, the external interface identification information is logic function information contained in each external interface sub-element; the internal interface identification information is preset logic function information contained in each internal interface sub-element; the interface information configuration relation table comprises the configuration relation of the external interface sub-element and the internal interface sub-element. For example, for a water inlet interface in the water inlet functional module of the seawater cooling system, the internal interface identification information of the water inlet interface includes information of "seawater inlet port"; the external interface identification information adapted to the 'seawater inlet' includes 'seawater outlet'.

S110, acquiring external attribute information of the external pipeline element; and configuring each functional pipeline element in the pipeline functional module according to the external attribute information and based on preset pipeline element examples to acquire a pipeline arrangement result of the current working area.

The embodiment of obtaining the external attribute information of the external pipe element includes:

reading attribute information of each external pipeline element, and acquiring total attribute information of the external pipeline elements, wherein the total attribute information comprises attribute categories and corresponding attribute information of each external pipeline element; detecting whether the number of attribute value items of the same attribute category in the total attribute information is greater than 1, if not, taking the attribute value as the external attribute information of the attribute category, if so, displaying all attribute values corresponding to the attribute category so as to be convenient for a designer to select, and waiting for receiving an attribute value selection instruction; and when the attribute value selection instruction is received, responding to the selection instruction, and taking the attribute value corresponding to the selection instruction as the external attribute information of the attribute category, so as to obtain the external attribute information of the external pipeline element.

It should be noted that, when the internal interface sub-element includes internal interface identification information, the external attribute information does not include the external interface identification information.

In this embodiment, the example pipeline components are pipeline component objects pre-stored in the pipeline component database according to actual specifications of each pipeline component, and include attribute information corresponding to the actual specifications. Since most of the piping components are manufactured according to certain industry standards or specifications, the specifications of piping components actually produced or purchased are limited. For example, according to the marine standard CBM 1008-1981, common flanges include DN50, DN60 and DN100 in terms of gauge size, and materials include cast iron and cast steel; the actual specification type of the common flange corresponds to the combination type among the attribute information of the flange, namely the example grid of the flange comprises iron DN50, iron DN60, iron DN100, copper DN50, copper DN60 and copper DN100.

Various pipeline elements are instantiated according to actual specifications, and the adaptive pipeline elements can be quickly and accurately found according to the pipeline arrangement module, so that the subsequent pipeline installation process can be more efficiently realized, and the problems of inappropriate specifications and performance parameters of the pipeline elements and the like are avoided.

In this embodiment, configuring, according to the external attribute information and based on preset examples of each pipeline element, an implementation manner of each functional pipeline element in the pipeline function module includes:

for a single functional pipe element, reading an element database associated with the functional pipe element; detecting whether a pipeline element example which is the same as preset attribute information exists in the pipeline element database or not according to the external attribute information, and if not, returning information of the non-matching pipeline element example; if yes, determining the pipeline element instance which is the same as the attribute information as the selected pipeline element instance; replacing the functional piping component with the selected piping component instance; or, the attribute parameters of the functional pipeline element are associated to inquire the attribute information of the selected pipeline element instance so as to complete the configuration process of the functional pipeline element; alternatively, for a single functional pipe element, reading a component database associated with that functional pipe element; detecting whether an element instance meeting a preset attribute matching condition exists in the pipeline element database or not according to the attribute information of the external pipeline element; if not, returning the information of the non-matching pipeline element example; if so, determining the pipeline element example meeting the preset attribute matching condition as a selected pipeline element example; replacing the functional piping component with the selected piping component instance; or, the attribute parameters of the functional pipeline element are associated to inquire the attribute information of the selected pipeline element instance, so as to complete the configuration of the functional pipeline element.

The preset attribute matching condition is a preset element attribute requirement corresponding to the pipeline functional module according to the pipeline arrangement principle. For example, the attribute information of the flange includes a nominal pressure, and the flange element in the water inlet function module of the seawater cooling system needs to satisfy the requirement that the nominal pressure is not less than the nominal pressure value of the external pipeline element according to the pipeline arrangement principle, that is, for the function module of the system, the preset attribute matching condition of the flange includes that the nominal pressure is not less than and is closest to the nominal pressure value of the external pipeline element, and assuming that the nominal pressure of the external pipeline element is 16kg, when the preset attribute matching condition, that is, when there are a plurality of flange instances with the nominal pressure being not less than 16kg, the flange instance closest to the nominal pressure value (16 kg) of the external pipeline element is the selected pipeline element instance.

After the functional pipeline elements complete the configuration process, the pipeline arrangement result of the current working area is obtained, that is, the configured pipeline functional module includes the functional pipeline elements and the attribute information corresponding to the functional pipeline elements. In this embodiment, according to the attribute information of the external pipeline element, the functional pipeline element in the pipeline functional module is replaced by using the pipeline element instance in the element database, or the attribute information of the functional pipeline element is associated with the pipeline element instance, and after the specification and size information of the pipeline element is adjusted, all pipeline arrangement results related to the pipeline element can be automatically adjusted along with the adjustment of the pipeline element, so that the individual pipeline elements are prevented from being adjusted respectively, and the workload of adjusting the arrangement results is greatly reduced.

Furthermore, each functional pipeline element in the pipeline functional module comprises preset attribute information, and is an attribute information value preset when each functional pipeline element instance is stored; in one embodiment, the preset attribute information is a general value of each of the functional pipeline elements, that is, an attribute value with the highest selected frequency in the arrangement process of the functional pipeline element; then, in step S110, before configuring each of the functional pipeline elements in the pipeline functional module according to the attribute information of the external pipeline element, the method further includes:

for a single functional pipeline element, detecting whether the preset attribute information of the functional pipeline element meets the requirement of a preset attribute matching condition or not according to the attribute information of an external pipeline element, if so, finishing the configuration process; if not, executing the configuration process in step S110;

wherein the detecting whether the preset attribute information of the functional pipe element matches the attribute information of the external pipe element comprises:

detecting whether the preset attribute information of a single functional pipeline element is the same as the attribute information of the external pipeline element or not according to the attribute information of the external pipeline element; or, detecting whether the preset attribute information of a single functional pipeline element is matched with the attribute information of the external pipeline element. Further, before the step S102, the functional modular pipeline arranging method further includes:

s101, constructing a pipeline function module database, and storing the area position information of the current working area and the correlation information between the pipeline function modules; and constructing a pipeline element database and storing the example information of each pipeline element.

In this embodiment, by determining a current working area and acquiring area location information of the current working area, a pipeline function module corresponding to the current working area, which is stored in advance, is called conveniently and quickly based on the area location information; the method comprises the steps that attribute information of external pipeline elements in a current working area is obtained, and each functional pipeline element in the pipeline functional module is configured according to the attribute information of the external pipeline element, so that the pipeline functional module can be efficiently and accurately adapted to an external pipeline; and finally, the pipeline function module is connected with the external pipeline by acquiring a first external interface sub-element in the external pipeline element, acquiring a first internal interface sub-element in the pipeline function module and connecting the first external interface sub-element and the first internal interface sub-element, so that the pipeline arrangement of the current working area is realized. The functional modularized pipeline arrangement method has the advantages of high efficiency, convenience and the like, can push information such as pipeline design knowledge, specifications and examples corresponding to working areas to designers in real time, and realizes the reutilization and unified modification in different working areas by calling corresponding pipeline functional modules in pipeline connection modes with the same function, thereby greatly improving the efficiency of pipeline design, ensuring the uniformity and specification of the arrangement modes of the same pipeline function of each ship body, and greatly improving the quality of pipeline design.

Example 2

Referring to fig. 2, a schematic structural diagram of the functional modular pipeline layout system provided in the present invention in an embodiment is shown.

As shown in fig. 2, the functional modular piping arrangement system 10 includes:

a working area selection module 11, configured to determine a current working area and obtain area position information of the current working area; the current working area comprises an external pipeline element;

a positioning information input module 12, configured to obtain positioning information for placing the pipeline to be arranged, corresponding to the positioning instruction;

a pipeline function display module 13, configured to obtain the pipeline function module corresponding to the current working area according to the area location information, and display the pipeline function module in the area corresponding to the positioning information according to the positioning information;

the connection module 14 is configured to obtain a first external interface sub-element in the external pipeline element and a first internal interface sub-element in the pipeline function module, and connect the first external interface sub-element and the first internal interface sub-element to implement connection between the pipeline function module and the external pipeline element.

A pipeline function configuration module 15, configured to obtain external attribute information of the external pipeline element, and configure each functional pipeline element in the pipeline function module according to the external attribute information;

preferably, the functional modular piping arrangement system 10 further comprises:

functional pipeline detection module: the module is used for detecting whether the attribute information of each functional pipeline element is matched with the external attribute information, if so, the module is exited; if not, the pipeline function configuration module 15 is triggered to execute the configuration process.

and the functional pipeline adjusting module is used for adjusting the position of the functional pipeline element selected by the element selecting instruction according to the input element selecting instruction and the displacement instruction and according to the displacement instruction.

the database unit comprises a pipeline function module database and is used for storing the area position information of the current working area and the correlation information between the pipeline function modules; and a pipeline element database for storing information of each pipeline element instance.

Preferably, the connection module 14 includes a first external interface selection sub-module, a first internal interface selection sub-module, and a connection generation sub-module:

the first external interface selection module is used for responding to a first external interface selection instruction, determining a first external interface sub-element in the external interface sub-element, and acquiring external interface identification information in the first external interface sub-element;

the first internal interface selection submodule is used for acquiring internal interface identification information of each internal interface subelement in the functional pipeline element; and detecting whether an internal interface sub-element with the internal interface identification information matched with the external interface identification information exists in the internal interface sub-element or not according to the acquired external interface identification information of the first external interface, and if so, determining the matched internal interface sub-element as the first internal interface sub-element.

The connection generation submodule is configured to obtain position information of the first internal interface subelement and the first external interface subelement, and generate a connection pipe element that connects the first internal interface subelement and the first external interface subelement according to the position information of the first internal interface subelement and the first external interface subelement.

In this embodiment, the selected current working area is determined by the selection module 11 according to a working area selection instruction input by a user, the current working area is displayed, and the area position information of the current working area is obtained; acquiring positioning information for embedding the pipeline to be arranged according to a positioning instruction input by a user through a positioning information input module 12; after the positioning information is determined, calling the pipeline function module corresponding to the current working area according to the area position information through a pipeline function display module 13, and displaying the pipeline function module in the area corresponding to the positioning information according to the positioning information; then, the connection between the pipeline function module and the external pipeline element is realized through the connection module 14; acquiring external attribute information of the external pipeline element through a pipeline function configuration module 15, and configuring each functional pipeline element in the pipeline function module according to the external attribute information; therefore, the pipeline arrangement of the working area can be completed, and the pipeline arrangement result of the work can be obtained.

Example 3

The present invention provides an electronic device, including: a processor, a memory, a transceiver, a communication interface, and a system bus; the memory is used for storing the computer program, the communication interface is used for communicating with other devices, and the processor and the transceiver are used for operating the computer program, so that the processing device can execute each step in the functional modularized pipeline arrangement method.

The Processor may be a general-purpose Processor, and includes a Central Processing Unit (CPU), a Network Processor (NP), and the like; the Integrated Circuit may also be a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic device, or discrete hardware components.

Example 4

The invention also provides a computer-readable storage medium, on which a computer program is stored which, when called by a processor, implements the functional modular tubing arrangement method. The computer-readable storage medium may include a Random Access Memory (RAM), and may further include a non-volatile memory (non-volatile) such as at least one disk memory.

It should be noted that the functional modular pipeline layout method, system, device and computer storage medium according to the present invention are not only applicable to ships, but also to other engine rooms, trains, buildings, etc. where pipelines are installed.

In summary, the functional modular pipeline layout method, system, device and computer storage medium provided by the present invention can automatically, efficiently and conveniently invoke the connection relationship between the functional pipeline element corresponding to the working area and each functional pipeline element according to the position of the working area, so as to realize the instant pushing of information such as pipeline design knowledge, specification and paradigm corresponding to the working area to designers, thereby realizing the fast, convenient, efficient and accurate pipeline layout, and simultaneously ensuring that each arranged functional pipeline element meets the actual specification requirement; and the pipeline connection mode with the same function realizes the reutilization and the uniform modification in different working areas by calling the corresponding pipeline function module, and after the specification and dimension information of the pipeline element is adjusted, all pipeline arrangement achievements related to the pipeline element can be automatically adjusted along with the adjustment of the pipeline element, thereby avoiding respectively adjusting single pipeline element, greatly improving the efficiency of pipeline design, simultaneously ensuring the uniformity and the specification of the arrangement mode with the same pipeline function of each ship body, and greatly improving the quality of pipeline design.

The foregoing embodiments are merely illustrative of the principles and utilities of the present invention and are not intended to limit the invention. Those skilled in the art can modify or change the above-described embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and scope of the present invention as defined in the appended claims.

Claims

1. A method of functionally modular piping, the method comprising:

determining a current working area, and acquiring regional position information of the current working area; the current working area comprises an external pipeline element which is used for connecting a pipeline to be arranged;

acquiring positioning information for placing a pipeline to be arranged in the current working area;

acquiring a pipeline function module corresponding to the current working area according to the area position information, wherein the pipeline function module comprises one or more functional pipeline elements; displaying a functional pipeline element in the pipeline functional module in an area corresponding to the positioning information according to the positioning information; the functional pipeline element comprises an internal interface sub-element which is an interface for being butted with the external pipeline element;

obtaining a first external interface sub-element of the external piping elements and obtaining a first internal interface sub-element of the functional piping elements of the piping function module; connecting the first external interface sub-element and a first internal interface sub-element;

acquiring external attribute information of the external pipeline element, and configuring each functional pipeline element in the pipeline functional module according to the external attribute information and based on preset pipeline element examples to acquire a pipeline arrangement result of the current working area;

the pipeline element examples are pipeline element objects which are stored in advance according to the actual specifications of all pipeline elements and contain attribute information corresponding to the actual specifications;

configuring each functional pipeline element in the pipeline functional module according to the external attribute information and based on preset pipeline element examples, including:

and replacing a functional pipeline element in the pipeline function module by using the pipeline element example according to the external attribute information, or associating the attribute information of the functional pipeline element to the pipeline element example.

2. The functional-modularized pipeline arranging method according to claim 1, wherein when the pipeline function module includes a plurality of functional pipeline elements, the pipeline function module includes connection information between the functional pipeline elements, and after the pipeline function module corresponding to the current working area is obtained according to the area position information, the method further includes: and generating connecting pipe elements for connecting the functional pipeline elements according to the connecting information.

3. The functionally modular pipeline arranging method according to claim 1, wherein after displaying the pipeline function module in the area corresponding to the positioning information according to the positioning information, the method further comprises: and responding to the component selection command and the displacement command, and adjusting the position of the functional pipeline component selected by the component selection command according to the displacement command.

4. The functionally modular tubing arrangement method of claim 1, wherein said obtaining external property information of said external tubing element comprises: reading attribute information of each external pipeline element to obtain total attribute information of the external pipeline elements; detecting whether the number of attribute value items of the same attribute category in the total attribute information is greater than 1; if not, taking the attribute value as the external attribute information of the attribute category, if so, displaying all attribute values corresponding to the attribute category, and waiting for receiving an attribute value selection instruction; and when the attribute value selection instruction is received, responding to the selection instruction, and taking the attribute value corresponding to the selection instruction as the external attribute information of the attribute category.

5. The method of claim 1, wherein configuring the implementation of each of the functional pipe elements in the pipe functional module according to the attribute information of the external pipe element comprises:

reading a component database associated with the functional pipeline component, wherein each pipeline component instance is stored in the component database in advance; inquiring whether the pipeline element examples meeting preset attribute matching conditions exist or not according to the attribute information of the external pipeline element; if not, returning the information of the non-matching pipeline element example; if so, replacing the functional pipeline element in the pipeline function module by adopting the pipeline element instance, or associating the attribute parameter of the functional pipeline element as the inquired attribute information of the pipeline element instance meeting the preset attribute matching condition.

6. The method of claim 5, wherein prior to configuring each of the functional pipe elements in the pipe functional module based on the attribute information of the external pipe element, the method further comprises:

for a single functional pipeline element, detecting whether the attribute information of the functional pipeline element is matched with the attribute information of the external pipeline, if so, setting the functional pipeline element as a functional pipeline element example, and not executing the step of configuring each functional pipeline element in the pipeline functional module according to the attribute information of the external pipeline element; if not, the step is executed.

7. The functionally modular tubing arrangement method of claim 5, further comprising: constructing a pipeline function module database for storing the position information of the current working area and the associated information between the pipeline function modules; and constructing a pipeline element database for storing information of each pipeline element instance.

8. A functionally modular tubing arrangement system, comprising:

the working area selection module is used for determining a current working area and acquiring the area position information of the current working area; the current working area comprises an external pipeline element which is used for connecting a pipeline to be arranged;

the positioning information input module is used for acquiring positioning information for placing a pipeline to be arranged;

the pipeline function display module is used for acquiring a pipeline function module corresponding to the current working area according to the area position information, and the pipeline function module comprises one or more functional pipeline elements; displaying a functional pipeline element in the pipeline functional module in an area corresponding to the positioning information according to the positioning information; the functional pipeline element comprises an internal interface sub-element which is an interface for butting with the external pipeline element; a connection module for obtaining a first external interface sub-element of the external pipeline element, obtaining a first internal interface sub-element of the functional pipeline element of the pipeline function module, and connecting the first external interface sub-element and the first internal interface sub-element;

the pipeline function configuration module is used for acquiring external attribute information of the external pipeline elements, and configuring each functional pipeline element in the pipeline function module according to the external attribute information and based on each preset pipeline element instance;

9. The functionally modular tubing arrangement system of claim 8, further comprising:

function pipeline detection module: the module is used for detecting whether the attribute information of the single functional pipeline element is matched with the attribute information of the external pipeline, if so, the module is exited; if not, triggering the pipeline function configuration module to execute the configuration process.

10. The functionally modular tubing arrangement system of claim 8, further comprising:

11. An electronic device, comprising: a processor and a memory;

the memory is used for storing a computer program, and the processor is used for executing the computer program stored by the memory to enable the electronic equipment to execute the functional modular pipeline arranging method according to any one of claims 1 to 7.

12. A computer storage medium, in which a computer program is stored which, when being executed by a processor, carries out a functional modular tubing arrangement method according to one of claims 1 to 7.