JP2022089095A - Program, method, and information processing device - Google Patents

Abstract

To provide a technique for determining value based on calculation results being accompanied by routing in a space for designing a plant.SOLUTION: A program executed by a computer having a processor causes a processor to execute the steps of: configuring a plant in a space for designing the plant to perform routing of an object connecting a plurality of apparatuses with each other; and determining value using the routing based on calculation results being accompanied by the routing.SELECTED DRAWING: Figure 7

Description

The present disclosure relates to programs, methods and information processing devices.

Techniques for generating piping routes within a plant are known.

Patent Document 1 describes a method of generating a piping route executed by a computer device in order to generate a piping route in a plant in which obstacles such as a plurality of devices are arranged.

Japanese Unexamined Patent Publication No. 2007-21998

In the space for plant design, a technique for determining the consideration based on the calculation result associated with routing is required.

According to one embodiment, a program executed by a computer equipped with a processor, the program configures the plant in the space for designing the plant and routes objects connecting a plurality of devices to the processor. A program is provided that executes a step to be performed and a step to determine the consideration using the routing based on the calculation result associated with the routing.

According to the present disclosure, there is provided a technique for determining a consideration based on a calculation result associated with routing in a space for designing a plant.

It is a figure which shows the whole structure of the system 1. It is a block diagram which shows the functional configuration of the terminal apparatus which constitutes a system 1. It is a figure which shows the functional configuration of the server which comprises system 1. It is a figure which shows an example of the data structure of various databases which a server stores. It is a flowchart which shows the routing process by the system 1 in this embodiment, and the process which specifies the consideration using the routing. It is a flowchart which shows the process which specifies the estimate of consideration in advance and presents to a user when the routing process is used in the system 1 in this embodiment. It is a figure which shows the screen example at the time of actually performing the routing in the system 1 in this disclosure. An example of a screen when arranging a rack, a tray, etc. for installing various pipes, cables, devices, etc. that can be arranged in a virtual space in the system 1 is shown. It is a figure which shows an example of the object which can arrange in a virtual space in system 1, and the pipe or the like are arranged in advance.

Hereinafter, embodiments of the present disclosure will be described with reference to the drawings. In the following description, the same parts are designated by the same reference numerals. Their names and functions are the same. Therefore, the detailed description of them will not be repeated.

<Overview>
The outline of the piping / cable routing system in the plant design for implementing the present disclosure will be described below. This piping / cable routing system is used for equipment for manufacturing chemical products via various production processes by chemical reactions, such as LNG (Liquefied Natural Gas) plants and petrochemical plants. It is a system for designing cables for power supply and cables for various communications.
Taking the LNG plant as an example, the equipment installed in the plant is an acid gas removal equipment that removes acid gas ( _H2S , _CO2 , organic sulfur, etc.) contained in the raw material gas that is the target of liquefaction treatment. , Sulfur recovery equipment that recovers single sulfur from the removed acid gas, water removal equipment that removes water contained in the raw material gas, compression of refrigerants (mixed refrigerant, propane refrigerant, etc.) used for cooling and liquefying the raw material gas Equipment etc. are included. Here, the equipment of a plant means a group of equipment or equipment laid according to the purpose of the plant.

In order to design such a plant, for example, the following steps are included. First, determine the equipment in the plant, various equipment such as pumps and heat exchangers, the layout of the frame (piping rack) for passing various pipes, the route of the main pipes, design the layout of the plant, and plot the plan. Create a layout plan called. Next, based on the functional requirements of the entire plant, the process unit (a series of manufacturing processes) from the acceptance of raw materials used in the plant to the shipment of products is formulated in detail, and the material / heat balance is calculated for each process. Create a process flow called a process flow diagram (PFD). Furthermore, based on the PFD, the simulation is repeated to correct the process calculation, the layout of the piping and various cables passing through each device in the plant is determined (piping routing), and the piping instrumentation diagram (P & ID (Piping and Instrument Diagram)). Is created. The system 1 according to the present disclosure is a 3D CAD system for designing the layout of equipment, cables, etc. in the entire plant and each facility in each of such processes, and supporting process flow creation, piping routing, P & ID, and the like.

In this disclosure, based on the calculation results of a computer when the piping / cable routing system in the plant design is used to route and arrange process piping, electric cables, or related equipment as described above. , The system for determining the consideration will be described.

<First Embodiment>
Hereinafter, the system 1 will be described. In the following description, for example, when the terminal device 10 accesses the server 20, the server 20 responds with information for generating a screen on the terminal device 10. The terminal device 10 generates and displays a screen based on the information received from the server 20.

<1 Overall configuration of system 1>
FIG. 1 is a diagram showing the overall configuration of the system 1. As shown in FIG. 1, the system 1 includes a plurality of terminal devices (in FIG. 1, the terminal device 10A and the terminal device 10B; hereinafter collectively referred to as “terminal device 10”) and a server 20. include. The terminal device 10 and the server 20 are connected to each other so as to be able to communicate with each other via the network 80. The network 80 is composed of a wired or wireless network.

The terminal device 10 is a device operated by each user. Here, the user means a person who designs a plant using the terminal device 10. The terminal device 10 is realized by a stationary PC (Personal Computer), a laptop PC, or the like. In addition, the terminal device 10 may be, for example, a mobile terminal such as a tablet or a smartphone compatible with a mobile communication system.

The terminal device 10 is communicably connected to the server 20 via the network 80. The terminal device 10 is compatible with wireless base stations 81 compatible with communication standards such as 5G and LTE (Long Term Evolution), and wireless LAN (Local Area Network) standards such as IEEE (Institute of Electrical and Electronics Engineers) 802.11. It is connected to the network 80 by communicating with a communication device such as a wireless LAN router 82. As shown as the terminal device 10B in FIG. 1, the terminal device 10 includes a communication IF (Interface) 12, an input device 13, an output device 14, a memory 15, a storage unit 16, and a processor 19.

The communication IF 12 is an interface for inputting / outputting signals because the terminal device 10 communicates with an external device.
The input device 13 is an input device (for example, a keyboard, a touch panel, a touch pad, a pointing device such as a mouse, etc.) for receiving an input operation from a user.

The output device 14 is an output device (display, speaker, etc.) for presenting information to the user.
The memory 15 is for temporarily storing a program, data processed by the program, or the like, and is, for example, a volatile memory such as a DRAM (Dynamic Random Access Memory).

The storage unit 16 is a storage device for storing data, and is, for example, a flash memory or an HDD (Hard Disc Drive).
The processor 19 is hardware for executing an instruction set described in a program, and is composed of an arithmetic unit, registers, peripheral circuits, and the like.

The server 20 is a device that manages information on each user, information on various devices and cables, and information on the virtual space (including those in the process of designing) for which the design has been performed.
The server 20 receives input to the user, such as the type of equipment to be arranged in the virtual space for plant design, the arrangement position, and the instruction to route the piping and the cable.

Specifically, for example, a viewpoint (virtual camera) in the virtual space for plant design is set, and various devices, routed pipes and cables arranged according to the user's instructions are rendered based on the virtual camera settings. And display it on the terminal device 10.
The server 20 is arranged in the virtual space based on the input type and arrangement position of various devices, determines the route of the piping and the cable based on the instruction from the user who routes the piping and the cable, and is on the virtual space. Route with and display it on the user's terminal. The server 20 specifies the consideration for the user who uses the system based on the calculation result associated with the above processing.

The server 20 is a computer connected to the network 80. The server 20 includes a communication IF 22, an input / output IF 23, a memory 25, a storage 26, and a processor 29.

The communication IF 22 is an interface for inputting / outputting signals because the server 20 communicates with an external device.
The input / output IF 23 functions as an interface with an input device for receiving an input operation from the user and an output device for presenting information to the user.

The memory 25 is for temporarily storing a program, data processed by the program, or the like, and is, for example, a volatile memory such as a DRAM (Dynamic Random Access Memory).
The storage 26 is a storage device for storing data, and is, for example, a flash memory or an HDD (Hard Disc Drive).
The processor 29 is hardware for executing an instruction set described in a program, and is composed of an arithmetic unit, registers, peripheral circuits, and the like.

<1.1 Configuration of terminal device 10>
FIG. 2 is a block diagram showing a functional configuration of the terminal device 10 constituting the system 1. As shown in FIG. 2, the terminal device 10 operates with a plurality of antennas (antenna 111, antenna 112) and a wireless communication unit (first wireless communication unit 121, second wireless communication unit 122) corresponding to each antenna. It includes a reception unit 130 (including a keyboard 131 and a display 132), a voice processing unit 140, a microphone 141, a speaker 142, a camera 150, a storage unit 160, and a control unit 170.

The terminal device 10 also has functions and configurations (for example, a battery for holding electric power, a power supply circuit for controlling the supply of electric power from the battery to each circuit, and the like) which are not particularly shown in FIG. As shown in FIG. 2, each block included in the terminal device 10 is electrically connected by a bus or the like.

The antenna 111 radiates a signal emitted by the terminal device 10 as a radio wave. Further, the antenna 111 receives radio waves from the space and gives a received signal to the first wireless communication unit 121.

The antenna 112 radiates a signal emitted by the terminal device 10 as a radio wave. Further, the antenna 112 receives radio waves from the space and gives a received signal to the second radio communication unit 122.

Since the terminal device 10 communicates with other wireless devices, the first wireless communication unit 121 performs modulation / demodulation processing for transmitting / receiving signals via the antenna 111. Since the terminal device 10 communicates with another wireless device, the second wireless communication unit 122 performs modulation / demodulation processing for transmitting / receiving signals via the antenna 112. The first wireless communication unit 121 and the second wireless communication unit 122 are communication modules including a tuner, an RSSI (Received Signal Strength Indicator) calculation circuit, a CRC (Cyclic Redundancy Check) calculation circuit, a high frequency circuit, and the like. The first wireless communication unit 121 and the second wireless communication unit 122 perform modulation / demodulation and frequency conversion of the wireless signal transmitted / received by the terminal device 10 and supply the received signal to the control unit 170.

The operation receiving unit 130 has a mechanism for receiving a user's input operation. Specifically, the operation reception unit 130 includes a keyboard 131 and a display 132. The operation receiving unit 130 may be configured as a touch screen that detects the user's contact position with respect to the touch panel, for example, by using a capacitive touch panel.

The keyboard 131 accepts the input operation of the user of the terminal device 10. The keyboard 131 is a device for inputting characters, and outputs the input character information to the control unit 170 as an input signal.

The display 132 displays data such as images, moving images, and texts under the control of the control unit 170. The display 132 is realized by, for example, an LCD (Liquid Crystal Display) or an organic EL (Electro-Luminescence) display.

The voice processing unit 140 performs modulation / demodulation of the voice signal. The voice processing unit 140 modulates the signal given from the microphone 141 and gives the modulated signal to the control unit 170. Further, the voice processing unit 140 gives a voice signal to the speaker 142.
The voice processing unit 140 is realized by, for example, a processor for voice processing. The microphone 141 receives the voice input and gives the voice signal corresponding to the voice input to the voice processing unit 140. The speaker 142 converts the voice signal given from the voice processing unit 140 into voice and outputs the voice to the outside of the terminal device 10.

The camera 150 is a device for receiving light by a light receiving element and outputting it as a captured image. The camera 150 is, for example, a depth camera capable of detecting the distance from the camera 150 to the shooting target.

The storage unit 160 is composed of, for example, a flash memory or the like, and stores data and programs used by the terminal device 10. In a certain aspect, the storage unit 160 stores the user information 161.

The user information 161 is information on a user who uses the terminal device 10 to design a plant, which is a function of the system 1. The user information includes information for identifying the user (user ID), the name of the user, organizational information of the company to which the user belongs, and the like.

The control unit 170 controls the operation of the terminal device 10 by reading the program stored in the storage unit 160 and executing the instructions included in the program. The control unit 170 is, for example, an application program installed in the terminal device 10 in advance. By operating according to the program, the control unit 170 exhibits functions as an input operation reception unit 171, a transmission / reception unit 172, a data processing unit 173, and a notification control unit 174.

The input operation receiving unit 171 performs a process of accepting a user's input operation to an input device such as a keyboard 131.

The transmission / reception unit 172 performs a process for the terminal device 10 to transmit / receive data to / from an external device such as a server 20 according to a communication protocol.

The data processing unit 173 performs a calculation on the data received by the terminal device 10 according to a program, and performs a process of outputting the calculation result to a memory or the like.

The notification control unit 174 performs a process of presenting information to the user. The notification control unit 174 performs a process of displaying a display image on the display 132, a process of outputting sound to the speaker 142, a process of generating vibration in the camera 150, and the like.

<1.2 Functional configuration of server 20>
FIG. 3 is a diagram showing a functional configuration of the server 20 constituting the system 1. As shown in FIG. 3, the server 20 functions as a communication unit 201, a storage unit 202, and a control unit 203.

The communication unit 201 performs a process for the server 20 to communicate with an external device.

The storage unit 202 stores data and programs used by the server 20. The storage unit 202 stores the piping information database 2021, the cable information database 2022, the rack information database 2023, the device information database 2024, and the like.

The piping information database 2021 is a database for holding information on various piping arranged in the virtual space presented for plant design in the system 1. Details will be described later.

The cable information database 2022 is a database for holding information about various cables arranged in the virtual space presented for plant design in the system 1. Details will be described later.

The rack information database 2023 is a database for holding information on various piping racks and cable racks arranged in the virtual space presented for plant design in the system 1. Details will be described later.

The device information database 2024 is a database for holding information about various devices arranged in the virtual space presented for plant design in the system 1. Details will be described later.

The control unit 203 performs processing according to a program by the processor of the server 20, and as various modules, the reception control module 2031, the transmission control module 2032, the input reception module 2033, the arrangement module 2034, the edit input reception module 2035, and the parameter input reception module It functions as a 2036, an edit display module 2037, a routing module 2038, and a consideration determination module 2039.

The reception control module 2031 controls a process in which the server 20 receives a signal from an external device according to a communication protocol.

The transmission control module 2032 controls a process in which the server 20 transmits a signal to an external device according to a communication protocol.

The input reception module 2033 performs an operation of designating a position where various pipes, cables, devices, etc. are arranged in a virtual space for designing a plant using the system 1, an operation of designating the type of these devices, and the like. Controls the processing received from.
When the user performs a plant design using the terminal device 10, the terminal device 10 causes the display 132 to display a virtual space imitating an actual site for which the plant design is performed. After that, the user inputs the types of various pipes, cables, devices, etc. to be arranged in the virtual space, and the arrangement position in the virtual space by performing a predetermined operation on the screen of the display 132. The input reception module 2033 receives information on the types of input various pipes, cables, devices, etc., and the arrangement position in the virtual space.

The input receiving module 2033 includes, for example, displaying a list of various pipes, cables, devices, and the like of a plurality of patterns as receiving a predetermined operation on the screen of the display 132. The input reception module 2033 accepts an operation of selecting a desired type from a list of various pipes, cables, devices, etc. of a plurality of patterns displayed on the screen by clicking or the like. The input reception module 2033 accepts an operation of selecting a placement position by accepting the designation of a desired part of the virtual space displayed on the screen by clicking or the like (that is, placing an object corresponding to these devices or the like in the virtual space). Accepts operations to specify the position to do). In addition, as another example of a predetermined operation, a desired image is selected from a list of images showing the appearance of various pipes, cables, devices, etc. displayed on the screen and dragged, and a virtual image displayed on the screen. There is an operation of selecting an arrangement position by moving it to a desired place in the space. The input operation for arranging various pipes, cables, devices, etc. is not limited to these.

The arrangement module 2034 controls the process of arranging and displaying in the virtual space based on the types of various pipes, cables, devices, etc. received by the input reception module 2033, and the information of the arrangement position in the virtual space. By accepting a predetermined operation on the terminal device 10 by the user, the terminal device 10 receives information on the types of various pipes, cables, devices, etc. arranged in the virtual space, and the arrangement position in the virtual space. Based on the information, the arrangement module 2034 arranges the various pipes, cables, devices, etc. in the virtual space displayed on the display 132 of the terminal device 10 at the arrangement position input by the user, and arranges the terminal device 10 It is displayed on the display 132 of.

The edit input reception module 2035 controls a process of receiving an input operation for editing various pipes, cables, devices, etc. from the user. The terminal device 10 accepts an operation from a user to input editing information for making various adjustments to various pipes, cables, devices, and the like displayed on the display 132 of the terminal device 10. The edit input reception module 2035 receives the input edit information of various pipes, cables, devices, and the like. The edit input reception module 2035 is an operation for editing various pipes, cables, devices, etc., for example, an operation corresponding to one or a plurality of types, shapes, sizes, quantities of pipes, cables, devices, etc. Accept.

The edit input reception module 2035 accepts, for example, an input operation for editing parameters set in various devices as an input operation for editing various pipes, cables, devices, etc. by the user. The edit input reception module 2035 accepts an input operation for editing the size, length, etc. by dragging various devices displayed on the display 132 as another example of the input operation by the user. The numerical value corresponding to the length is accepted as the input of the parameter of the device.

The parameter input reception module 2036 controls a process of receiving input of various parameters when routing various pipes, cables, devices, and the like. The various parameters include the types of pipes, cables, devices, etc., the types of devices to be connected, the quantity, size, and information regarding the placement of objects for arranging them. Details of various parameters will be described later. The user operates the terminal device 10 to input various parameters when routing pipes, cables, devices, and the like.

The edit display module 2037 controls a process of changing the display mode of various pipes, cables, devices, etc. and displaying them in the virtual space based on the edit information of various pipes, cables, devices, etc. received by the edit input reception module 2035. .. By accepting a predetermined operation of the user, the terminal device 10 accepts an operation of editing various pipes, cables, devices, etc. arranged in the virtual space. The terminal device 10 accepts from the user, for example, an operation of editing the length of the pipe and the connection angle with the device. The edit display module 2037 receives information generated by these operations (information on input operations, etc.), and based on the information, in the virtual space displayed on the display 132 of the terminal device 10, the various pipes, cables, and the like. Change the display mode of the device, etc. The edit display module 2037 changes its appearance according to, for example, the length of the attached pipe received from the user and the connection angle with the device, and displays it on the display 132 of the terminal device 10.

The routing module 2038 controls the process of routing pipes, cables, equipment, etc. arranged in the plant to be designed by using the system 1. The routing module 2038 receives from the user an instruction operation performed in association with various pipes, cables, devices, etc. arranged in the virtual space, and performs routing based on the instruction operation. The piping to be placed in the plant is, for example, a piping for transporting the raw material gas in the plant, a piping for transporting an absorbent liquid for absorbing the removed component from the raw material gas, a piping for transporting the exhaust gas, etc. Is. These pipes are arranged to allow liquid or gaseous fluids to flow.
Further, the cable arranged in the plant includes a power cable for supplying electric power to various devices and a communication cable used for communication between various devices.

In the terminal device 10, the operation of designating the start position and the end position of the routing and the operation of starting the routing are received from the user. For example, on the screen displayed on the display 132 of the terminal device 10, the user designates a predetermined place such as various pipes, cables, devices, etc. arranged in the virtual space as a start position or an end position of routing. The predetermined location is, for example, an end point of an attached pipe of a device. The terminal device 10 accepts an operation for instructing routing (for example, pressing a predetermined button on the screen) from the user. The routing module 2038 routes the cable in response to receiving a routing instruction from the user.

The routing module 2038 may manually perform routing of pipes, cables, devices, etc. based on detailed input information performed by the user in the virtual space (manual routing). Further, the routing module 2038 may perform piping routing by calculation by the user designating the start and end points (automatic routing). When performing automatic routing, the routing module 2038 determines the direction of piping and cable routing according to predetermined conditions, and performs automatic routing by an algorithm that avoids various existing pipes, cables, devices, and the like. Further, the routing module 2038 may be configured to perform routing such as a pipe diameter or a material specified by a parameter input from the user or a preset parameter, and the pipe having the optimum pipe diameter or material for the flowing fluid may be used. May be configured to recommend.

In the present embodiment, as described above, the server 20 accepts inputs of the types and arrangement positions of various pipes, cables, devices, etc., and accepts operations for editing the pipes, cables, devices, etc. The configuration is such that routing is performed based on the routing instruction, but the configuration is not limited to such a configuration.
For example, some or all of the above functions may be configured to receive input in the terminal device 10, process it in the terminal device 10, and display it on the display 132 of the terminal device 10. In order to make such a configuration, the user may access the server 20 via the terminal device 10, install the program provided by the server 20 in the terminal device 10, and perform processing in the terminal device 10. .. In this case, the server 20 does not include a part or all of the device input reception module 2033, the device arrangement module 2034, the device edit input reception module 2035, the parameter input reception module 2036, the edit display module 2037, or the routing module 2038 as the functions of the server 20. You may.

The consideration determination module 2039 controls a procedure for determining the consideration for the routing based on the calculation result associated with the routing when the user routes various pipes, cables, devices, etc. by the system 1. Specifically, the consideration determination module 2039 determines the routing consideration based on the following information when the user routes various pipes, cables, devices, etc. in the virtual space in the system 1.
(1) Length and number of pipes installed along with routing, number of elbows, magnitude of pressure loss in and out based on the slope of pipes, etc. (2) Length and number of cables installed along with routing, etc. (3) ) Types, sizes, numbers, structural complexity, etc. of equipment installed along with routing (4) Types, sizes, numbers, structural complexity, etc. of objects installed along with routing (5) Above piping and cables , Device setting amount, and editing amount

Based on the above information, the server 20 specifies a place in the virtual space where the routing of the straight line portion is performed from the length, the number of pipes, etc., and the place where the routing of the bent portion is performed from the number of elbows, and the like. , The consideration may be specified based on the specified result. In a certain aspect, the server 20 may make a difference in the price in the routing of the straight line portion and the bent portion.

Here, an example will be given of a method of calculating the number of pipes to be installed along with routing. In a certain aspect, the number of pipes may be determined so that the server 20 accepts an input of the number of pipes to be arranged from the user who designs the plant (manual input). In that case, the server 20 may acquire information on the number of pipes used for routing from the information on the number of installed pipes received from the user, and calculate the consideration according to the number of pipes. Further, in a certain aspect, the number of pipes may be estimated by the server 20 by acquiring information such as drawings and P & ID from the user. Here, the method for calculating the number of pipes is not limited, and any other method may be used.
In addition to piping, the above calculation method may be applied to the calculation of the number of elbows, the number of cables, the number of objects, and the like.
The server 20 may receive information on the above pipes and the like before routing to present an estimate of the price according to the number of pipes and the like to be installed to the user who uses the system 1.
Here, the object may include an object such as a device in which a pipe or the like is arranged in advance, in addition to a rack or a tray for installing a pipe or a cable.

The consideration determination module 2039 specifies information such as a calculation amount when the computer performs the routing process based on the above information, and specifies the consideration information to be presented to the user based on the specified calculation amount.

In a certain aspect, the consideration determination module 2039 specifies the edit amount of pipes, cables, devices, etc. received by the edit input reception module 2035 and the parameter input reception module 2036 when determining the consideration, and makes the specified edit amount. Based on this, the information of the consideration to be presented to the user may be specified.

In a certain aspect, the consideration determination module 2039 may specify the consideration information not only based on the operation result associated with the routing but also based on the operation result associated with the specific post-routing process. Specifically, the consideration determination module 2039 divides various routed pipes into a mesh and specifies the consideration based on the calculation result accompanying the thermal fluid analysis using the finite element method (Finite Element Method) or the like. good. For example, the consideration determination module 2039 is based on the calculation result associated with the thermo-fluid analysis of the routed pipe where the pressure loss is particularly generated, for example, the elbow part, the part where the thickness of the pipe is changed, and the like. You may decide the consideration.
Further, in a certain aspect, the server 20 identifies the pressure loss generated based on the drawing acquired from the user, the P & ID, or the inclination of the pipe installed in the system 1, and calculates the specified pressure loss at the location where the specified pressure loss occurs. Based on this, the consideration may be determined.

Thereby, the server 20 can specify the calculation amount associated with the routing based on the number, length, type, parameters, etc. of the pipes and the like arranged in the virtual space in the plant design. Therefore, the server 20 can accurately specify the consideration information presented to the user.

In plant design that specifies various parameters required for plant construction by installing and routing various objects such as pipes and cables, the human cost for pipe design usually occupies a large proportion. The reason for this is that in piping design, not only are there a wide variety of objects to be installed, but also the required thickness and length of the piping vary greatly depending on the characteristics of the substances flowing in the piping, so human resources are required at the time of designing. This is because a lot of is required. By using the routing system exemplified in the present disclosure, such human cost can be reduced. However, the method of calculating the consideration for using the routing system has not been clearly determined.
According to the present disclosure, by specifying the consideration for routing based on various parameters related to routing such as the number and length of pipes, the user who provides the system 1 can set the object in the plant design, particularly the property of the substance to be flowed. It is possible to specify the exact price for the installation and routing of pipes whose calculation amount varies greatly depending on the arrangement method.

<3 Data structure>
FIG. 4 is a diagram showing an example of the data structure of the piping information database 2021, the cable information database 2022, the rack information database 2023, and the device information database 2024 stored in the server 20.

As shown in FIG. 4, each of the records of the piping information database 2021 has an item "pipe ID", an item "material", an item "pipe diameter (inner diameter) mm", an item "heat resistance", and an item "pressure resistance". Includes item "corrosion resistance", item "coefficient of friction in pipe", etc.

The item "Piping ID" is information for identifying the types of various pipes that can be arranged in the virtual space in the system 1.

The item "material" is information for identifying the material of various pipes. For example, it indicates that the material of the pipe with the pipe ID "P001" is "SUS304".

The item "pipe diameter (inner diameter) mm" is information indicating the pipe diameter of various pipes. Specifically, it is information indicating the outer diameter and the inner diameter of various pipes. For example, it is shown that the pipe diameter (inner diameter) of the pipe with the pipe ID “P001” is “20 (15)”.

The item "heat resistance" is information indicating the heat resistance of various pipes. For example, it indicates that the heat resistance of the pipe with the pipe ID "P001" is "A ° C.".

The item "pressure resistance" is information indicating the heat resistance of various pipes. For example, it indicates that the pressure resistance of the pipe with the pipe ID "P001" is "A MPa".

The item "corrosion resistance" is information indicating the corrosion resistance of various pipes. For example, it is shown that the corrosion resistance of the pipe with the pipe ID "P001" is "AA".

The item "in-pipe friction coefficient" is information indicating the in-pipe friction coefficient of various pipes. For example, it is shown that the coefficient of friction in the pipe of the pipe ID “P001” is “◆◆”.

When routing a pipe, the server 20 performs routing using the optimum pipe by referring to the physical properties of the substance passing through the pipe and the information of the pipe held in the pipe information database 2021. For example, when flowing a highly viscous substance, a pipe having a small coefficient of friction may be specified, and when flowing an acidic substance, a pipe having corrosion resistance to the substance may be specified and routed.
After that, the server 20 specifies the consideration information presented to the user by the consideration determination module 2039 based on the calculation result associated with the routing.

As shown in FIG. 4, each of the records in the cable information database 2022 includes an item "cable ID", an item "material", an item "diameter mm", and the like.

The item "cable ID" is information for identifying the types of various cables that can be arranged in the virtual space in the system 1.

The item "material" is information for identifying the material of various cables. For example, it indicates that the material of the cable with the cable ID "C001" is "AA".

The item "diameter mm" is information for identifying the diameter of various cables. For example, it indicates that the diameter of the cable of the cable ID "C001" is "200".

When routing the cable, the server 20 refers to the cable information database 2022 and implements the optimum cable routing.
After that, the server 20 specifies the consideration information presented to the user by the consideration determination module 2039 based on the calculation result associated with the routing.

As shown in FIG. 4, each of the records in the rack information database 2023 includes an item "rack ID", an item "size m3", an item "stored object", an item "complexity", and the like.

The item "rack ID" is information that identifies the types of racks, trays, and the like for installing various pipes, cables, devices, and the like that can be arranged in the virtual space in the system 1.

The item "size m3" is information for identifying the sizes of various racks. For example, it indicates that the size of the rack with the rack ID "R001" is "5 x 10 x 10".

The item "stored object" is information that identifies the type of object that can be stored in various racks. Specifically, the item indicates information for identifying the types of pipes, cables, devices, etc. that can be stored in various racks. For example, it indicates that the storage objects of the rack with the rack ID "R001" are "pipe" and "cable".

The item "complexity" is information for identifying a value that defines the complexity of various racks. Specifically, the server 20 identifies a basic structure among racks and the like arranged by the user in the virtual space, for example, a structure in which no other racks and the like are present, and compares the racks with the basic rack and the like. Then define the structural complexity of each rack. For example, the complexity of the rack with the rack ID "R001" is shown to be "B". The complexity may be expressed in ABC or the like, or may be expressed numerically. The server 20 may specify the information of the consideration to be presented to the user by the consideration determination module 2039 based on the complexity and the calculation result associated with the routing.

As shown in FIG. 4, each record of the device information database 2024 includes an item "device ID", an item "type", an item "size mm3", an item "number of connected objects", an item "device unit price", and the like.

The item "device ID" is information that can be arranged in the virtual space in the system 1 to identify various devices, objects in which pipes and the like are arranged in advance, and the like.

The item "type" is information for identifying the type of various devices, objects or the like in which pipes or the like are arranged in advance. Specifically, information on pumps, heat exchangers, filters, valves, etc. is shown. For example, the device type of the device ID "O001" indicates that it is "pump (End-Top)".

The item "size mm3" is information for identifying the size of various devices, objects in which pipes and the like are arranged in advance, and the like. For example, it indicates that the size of the device with the device ID "O001" is "1500 x 1000 x 1000".

The item "number of connected objects" is information on the number of objects that can be connected to or already connected to various devices, objects in which pipes and the like are arranged in advance. For example, it indicates that the number of connected objects of the device with the device ID "O001" is "5".
The item "device unit price" indicates information on the unit price set for various devices, objects in which pipes and the like are arranged in advance, and the like. Specifically, when the server 20 arranges a device or the like for which the unit price is set in the virtual space and performs routing, the server 20 is based on the unit price in addition to the consideration specified based on the calculation amount. Present the consideration to the user. For example, it indicates that the device unit price of the device with the device ID "O001" is "** yen".

The server 20 performs routing in the virtual space based on various information such as the above pipes, cables, and devices. After that, the server 20 specifies the consideration information presented to the user based on the calculation amount associated with the routing by the consideration determination module 2039, and specifies the total amount of the consideration combined with the device unit price information.

Through the above series of processes, the server 20 performs routing based on the number, length, size, and the like of various pipes, cables, devices, racks, and the like arranged in the virtual space by the user. After that, the server 20 can specify the information of the consideration to be presented to the user by the consideration determination module 2039 based on the calculation amount of the computer accompanying the routing.

<4 operation>
FIG. 5 describes the routing process by the system 1 in the present embodiment and the process of specifying the consideration using the routing.

In step S501, the processor 170 of the terminal device 10 receives and accepts an input operation from the user for routing an object that configures the plant and connects a plurality of devices in the space for designing the plant. To the server 20. Specifically, the processor 170 of the terminal device 10 receives from the user an input operation for arranging various pipes, cables, devices, racks, and the like in the space.

In step S551, the server 20 routes the object in the space based on the received result.

In step S552, the server 20 determines the consideration using the routing based on the calculation result associated with the routing, and transmits the consideration information to the terminal device 10.

In step S502, the processor 170 of the terminal device 10 presents to the user the information of the consideration using the routing acquired from the server 20.

FIG. 6 describes a process of specifying a consideration estimate in advance and presenting it to a user when the routing process is used in the system 1 of the present embodiment.

In step S601, the processor 170 of the terminal device 10 receives information about the process design of the plant from the user, and transmits the received information to the server 20. Specifically, the terminal device 10 may receive information such as a drawing related to the plant design, for example, P & ID (Piping and Instrumentation flow Diagram) from the user. Further, in a certain aspect, the terminal device 10 presents the user with a screen or the like for creating an estimate, and accepts input from the user of various information such as pipes, cables, and devices to be arranged. It may be that.

In step S651, the server 20 identifies an approximate estimate of the consideration based on the past routing result based on the received result, and transmits the identified result to the terminal device. Specifically, the server 20 may refer to the result of a plant design of the same scale designed by the same user in the past based on the received information, and present the amount of consideration at that time to the user as a rough estimate. It may be good or it may be based on the result of a plant design of the same scale designed by another user in the past.

In step S602, the processor 170 of the terminal device 10 presents the user with the information of the estimated consideration of the consideration acquired from the server 20.

As a result, the user who intends to use the system 1 can know the rough amount of consideration before actually performing the routing, so that it can be expected that the cost management becomes easy.

<5 screen example>
7A and 7B are FIGS. 701 and 702 showing screen examples when actually performing routing in the system 1 in the present disclosure.

As shown in FIGS. 7 (A) and 7 (B), the user arranges racks, devices, etc. for arranging pipes, etc. in the virtual space, and then routes various pipes, cables, etc. used in the process. do.
At this time, the server 20 determines the amount of calculation when the computer performs the routing process based on various information such as the routed pipes, the number of cables, the length, and the like, the value of the pressure loss in and out of the process, and the like. The information is specified, and the information of the consideration to be presented to the user is specified based on the specified calculation amount.

FIG. 8 shows a screen example 801 when arranging racks, trays, etc. for installing various pipes, cables, devices, etc. that can be arranged in the virtual space in the system 1.

As shown in FIG. 8, the user arranges racks, devices, and the like for arranging pipes and the like in the virtual space. At this time, the server 20 specifies the complexity of the rack, for example, a structure in which a step is provided in the middle and is laterally exited, a structure in which the pipe and the cable can intersect in the rack, and the like, and the consideration is made based on the complexity. Identify the information in.

FIG. 9 is FIG. 901 showing an example of an object in which pipes and the like are arranged in advance, which can be arranged in the virtual space in the system 1.

FIG. 9 is composed of an apparatus 902 (in this figure, a heat exchanger is shown), a pipe 903, a pipe 904, an instrument 905, an instrument 906, and the like. The object in which the pipes and the like are arranged in advance is not limited to the configuration shown in this figure, and may have any configuration. In a certain aspect, another object such as a cable may be arranged on the object.
In FIG. 9, after receiving the arrangement of the object by the user, the server 20 specifies various information about the object, for example, information such as a type and a size, with reference to the device information database 2024. After that, the server 20 specifies the consideration information in the consideration determination module 2039 based on the information such as the type of the object, the arranged quantity, and the unit price.

In a certain aspect, the server 20 may accept editing and input of parameters and the like of the object from the user, and specify consideration information based on information such as the accepted editing amount.

As a result, when the user who uses the system 1 designs the plant, the server 20 considers not only the information such as the number of objects arranged in the virtual space, the unit price, etc., but also the calculation result by editing the parameters. Can be identified.

As described above, by using the system 1 of the present disclosure, the user who designs the plant can design the plant while confirming the estimation based on the past design. Further, the user who provides the system 1 can specify the consideration based on various conditions, parameters, and the like in the plant design. Therefore, the user who provides the system 1 can get a consideration every time the user who provides the system 1 uses the system 1.
Further, although it is stated that the consideration is specified based on the information such as the number of pipes, the user who provides the system 1 has set a fixed price up to the parameters such as the number and the length, which is the relevant consideration. When the set value is exceeded, the consideration may be specified according to the excess amount.

Although the embodiments related to the disclosure have been described above, these can be implemented in various other embodiments, and can be implemented by making various omissions, substitutions, and changes. These embodiments and modifications, as well as those omitted, replaced or modified, are included in the technical scope of the claims and the equivalent scope thereof.

<Additional Notes>
The matters described in each of the above embodiments will be added below.

(Appendix 1)
A program executed by a computer including the processor 170, wherein the program configures the plant and routes an object connecting a plurality of devices to the processor 170 in a space for designing the plant (S551). ) And the step (S552) of determining the consideration using the routing based on the calculation result associated with the routing.

(Appendix 2)
The program further identifies the information regarding the routed length of the object to the processor 170 in the routing step (S551), and is based on the specified length information in the consideration determination step (S552). The program according to Appendix 1, which executes the step of determining the consideration. (Paragraph 0063-Paragraph 0066)

(Appendix 3)
The program further identifies information about the number of objects routed to the processor 170 in the routing step (S551), and is based on the information about the specified number in the step of determining the consideration (S552). , The program according to Appendix 1 or 2, which causes the step of determining the consideration to be executed. (Paragraph 0063-Paragraph 0066)

(Appendix 4)
The program further identifies information about the number of elbows placed in the routing of the object to the processor 170 in the routing step (S551), and information about the number of elbows specified in the step of determining the consideration (S552). The program according to any one of Supplementary note 1 to 3, wherein the step of determining the consideration is executed based on the above. (Paragraph 0063-Paragraph 0066)

(Appendix 5)
The program specifies to the processor 170 the range of routing of the linear part in the routing of the object from the length of routing the object or the number of routes of the object in the routing step (S551). From the number of elbows placed in the routing of the object, the range of the routing of the straight part in the specified routing in the step of specifying the routing range of the bending part in the routing of the object and the step of determining the consideration (S552). The program according to any of Annex 1 to 4, which causes the step of determining the consideration to be executed based on the information regarding the routing range of the bending portion in the routing. (Paragraph 0063-Paragraph 0066)

(Appendix 6)
The program specified information about a specific evaluation value for the object used for installing the object in the step (S551) of routing to the processor 170, and specified in the step (S552) of determining the consideration. The program according to any one of Supplementary note 1 to 5, which executes a step of determining consideration based on an evaluation value. (Paragraph 0063-Paragraph 0066)

(Appendix 7)
The program specifies information about the processing amount of the processor in the step (S551) of further routing to the processor 170, and determines the consideration based on the specified calculation amount in the step (S552) of determining the consideration. The program according to any one of Supplementary note 1 to 6, which executes a step. (Paragraph 0063-Paragraph 0066)

(Appendix 8)
The program specifies information on the quantity of the first object, which is an object in which pipes and the like are arranged in advance, in the equipment constituting the plant in the step (S551) for further routing to the processor 170, and pays the price. The program according to any one of Supplementary note 1 to 7, wherein in the determination step (S552), the step of determining the consideration is executed based on the information regarding the quantity in which the specified first object is installed. (Paragraph 0063-Paragraph 0066)

(Appendix 9)
The program receives information about the setting amount of the parameter of the first object from the user in the step (S551) of further routing to the processor 170, and the first object received in the step of determining the consideration (S552). The program according to Appendix 8, wherein the step of determining the consideration and the step of determining the consideration based on the information regarding the set amount of the parameters of the above are executed. (Paragraph 0063-Paragraph 0066, Paragraph 0110-Paragraph 0112)

(Appendix 10)
The program further routes to the processor 170 in the step of specifying the information regarding the type of the device included in the first object in the step (S551), and in the step of determining the consideration (S552), the type of the specified device. The program according to Appendix 8 or 9, wherein the step of determining the consideration and the execution of the step based on the information regarding the above. (Paragraph 0063-Paragraph 0066)

(Appendix 11)
The program further routes to the processor 170 in the step (S551) of specifying information about the number of devices included in the first object and in the step of determining the consideration (S552) of the specified device. The program according to any of Supplementary note 8 to 10, wherein the step of determining the consideration based on the information about the number and the execution of the step. (Paragraph 0063-Paragraph 0066)

(Appendix 12)
The program relates to the processor 170 with respect to the specified unit price in the step of specifying the information regarding the specific unit price set in the first object in the step of routing (S551) and the step of determining the price (S552). The program according to any one of Supplementary note 8 to 11, wherein the step of determining the consideration based on the information and the execution of the step are executed. (Paragraph 0091 to paragraph 0092, paragraph 0109 to paragraph 0111)

(Appendix 13)
The program specifies the processor 170 in a step of specifying information about the amount of calculation of the processor when editing the first object in a step of further routing (S551) and a step of specifying a consideration in the step (S552). The program according to any one of Supplementary note 8 to 12, wherein the step of determining the consideration and the step of determining the consideration based on the information regarding the calculated amount are executed (paragraphs 0063 to 0066).

(Appendix 14)
The program receives information on the process design of the plant from the user (S601) in the step (S551) of further routing to the processor 170, and based on the received information on the process design, estimates the consideration using routing. The program according to any one of Supplementary note 1 to 13, which causes the user to execute the step (S651) of presenting information about the above. (Paragraph 099 to paragraph 0102)

(Appendix 15)
A method executed by a computer including a processor 170, wherein the program configures a plant in a space for the processor 170 to design a plant, and routes objects connecting a plurality of devices to each other (S551). A method of executing the step (S552) of determining the consideration using the routing based on the calculation result associated with the routing.

(Appendix 16)
An information processing device including a control unit 170, in which the control unit 170 configures a plant and routes an object that connects a plurality of devices in a space for designing the plant (S551), and routing. An information processing device that executes a step (S552) of determining a consideration using routing based on a calculation result accompanying the operation.

1 system 1
10 terminal equipment 20 servers,
80 Network 130 Operation reception unit 161 User information 22 Communication IF
23 I / O IF
25 Memory 26 Storage 29 Processor 201 Communication Unit 202 Storage Unit 203 Control Unit 301 Communication Unit 302 Storage Unit 303 Control Unit

Claims (16)

A program run by a computer with a processor
The program is attached to the processor.
In the space for designing a plant, the steps to configure the plant and route the objects that connect multiple devices to each other,
A program for executing a step of determining a consideration using the routing based on a calculation result associated with the routing. The program is applied to the processor and further to the processor.
In the routing step, identify information about the routed length of the object.
The program according to claim 1, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the information regarding the specified length. The program is applied to the processor and further to the processor.
In the routing step, identify information about the number of routing objects.
The program according to claim 1 or 2, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the information regarding the specified number. The program is applied to the processor and further to the processor.
In the routing step, identify information about the number of elbows placed in the routing of the object.
The program according to any one of claims 1 to 3, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the information regarding the number of the specified elbows. The program is applied to the processor and further to the processor.
In the step of performing the routing, the range of the routing of the linear portion in the routing of the object is specified from the length of the routing of the object or the number of routes of the object.
A step of specifying the range of the routing of the bending part in the routing of the object from the number of elbows arranged in the routing of the object, and
In the step of determining the consideration, the step of determining the consideration is executed based on the information regarding the range of the routing of the straight line portion in the specified routing and the range of the routing of the bending portion in the routing. The program according to any one of claims 1 to 4. The program is applied to the processor and further to the processor.
In the routing step, identify information about a particular evaluation value for the object used to place the object.
The program according to any one of claims 1 to 5, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the specified evaluation value. The program is applied to the processor and further to the processor.
In the step of performing the routing, the information regarding the arithmetic amount of the processor is specified, and the information is specified.
The program according to any one of claims 1 to 6, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the specified calculation amount. The program is applied to the processor and further to the processor.
In the step of performing the routing, information on the quantity in which the first object, which is an object in which pipes and the like are arranged in advance, is installed in the equipment constituting the plant is specified.
The program according to any one of claims 1 to 7, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the information regarding the quantity in which the specified first object is installed. The program is applied to the processor and further to the processor.
In the step of performing the routing, a step of receiving information about the setting amount of the parameter of the first object from the user and a step of receiving the information.
The program according to claim 8, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the information regarding the set amount of the parameter of the first object received. The program is applied to the processor and further to the processor.
In the step of performing the routing, a step of specifying information regarding the type of the device included in the first object, and a step of specifying the information.
The program according to claim 8 or 9, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the information regarding the type of the specified device. The program is applied to the processor and further to the processor.
In the step of performing the routing, a step of specifying information regarding the number of devices included in the first object, and a step of specifying the information.
The program according to any one of claims 8 to 10, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the information regarding the number of the specified devices. The program is applied to the processor and further to the processor.
In the step of performing the routing, a step of specifying information regarding a specific unit price set in the first object, and a step of specifying the information.
The program according to any one of claims 8 to 11, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the information regarding the specified unit price. The program is applied to the processor and further to the processor.
In the step of performing the routing, a step of specifying information regarding the amount of calculation of the processor when editing the first object, and a step of specifying the information.
The program according to any one of claims 8 to 12, wherein in the step of determining the consideration, the step of determining the consideration is executed based on the information regarding the specified calculation amount. The program is applied to the processor and further to the processor.
In the step of performing the routing, information regarding the process design of the plant is received from the user, and the information is received from the user.
The program according to any one of claims 1 to 13, which causes the user to execute a step of presenting information on the rough estimation of the consideration using the routing based on the information on the received process design. It is a method executed by a computer equipped with a processor.
In the program, the processor
In the space for designing a plant, the steps to configure the plant and route the objects that connect multiple devices to each other,
A method of executing a step of determining a consideration using the routing based on a calculation result associated with the routing. An information processing device including a control unit, wherein the control unit
In the space for designing a plant, the steps to configure the plant and route the objects that connect multiple devices to each other,
An information processing apparatus that executes a step of determining a consideration using the routing based on a calculation result associated with the routing.

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