WO2020149486A1 - Système de gestion de production de tronçon de tuyau et procédé de gestion de production de tronçon de tuyau faisant appel à celui-ci - Google Patents
Système de gestion de production de tronçon de tuyau et procédé de gestion de production de tronçon de tuyau faisant appel à celui-ci Download PDFInfo
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- WO2020149486A1 WO2020149486A1 PCT/KR2019/011164 KR2019011164W WO2020149486A1 WO 2020149486 A1 WO2020149486 A1 WO 2020149486A1 KR 2019011164 W KR2019011164 W KR 2019011164W WO 2020149486 A1 WO2020149486 A1 WO 2020149486A1
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q50/00—Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
- G06Q50/04—Manufacturing
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/06—Resources, workflows, human or project management; Enterprise or organisation planning; Enterprise or organisation modelling
- G06Q10/063—Operations research, analysis or management
- G06Q10/0631—Resource planning, allocation, distributing or scheduling for enterprises or organisations
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/30—Computing systems specially adapted for manufacturing
Definitions
- the present invention relates to a technology for achieving efficient management and delivery by using an integrated management system in the pipe spool industry, efficiency through quality innovation as document automation, and innovation to the spool industry. More specifically, the integrated management system It is composed of modules for each effective project management, and through management of each component, it overcomes the difficulties of industrial characteristics that only conventional skilled managers could manage, and leads to innovative labor cost reduction, called pipe spool.
- the present invention relates to a pipe spool production management system capable of accurately tracking and cost reduction of products and materials in a specialized field, maximizing management efficiency, and a method of pipe spool production management using the same.
- This system is a collection of technologies and programs of experts with more than 25 years of know-how ranging from design, production, quality, to PM, and all efforts and technologies have been concentrated for perfect project management in the pipe spool industry. can do.
- the object of the present invention is that the schedule management according to the project progress is very important in the pipe spool industry.
- the pipe spool production management system and pipes using the same are used to manage the schedule management method according to the spool industry's framework. It is to provide a spool production management method.
- another object of the present invention is the pipe spool production management system and the pipe spool production management system using the pipe spool integrated management of the spool industry to identify unnecessary materials that are not frequently generated, receive, and identify shortages of materials and do not cause ordering It is to provide a production management method.
- Another object of the present invention is that in the pipe spool industry, a lot of data is required from customers, and it is a reality that a lot of airborne efforts are being put into this. It is to provide a pipe spool production management system and a pipe spool production management method using the same, which reduces cost and reduces error rates through automated pipe spool documentation.
- another object of the present invention is to provide a pipe spool production management system and a pipe spool production management method using the same, which solve conventional difficulties through pipe spool raw material and product tracking management through systems and procedures.
- another object of the present invention is to provide a pipe spool production management system and a pipe spool production management method using the same, which can be managed even by an unskilled administrator who is new to the industry for the first time, not an experienced administrator for 3 years or more.
- the present inventors pipe spool production management method, the first step of receiving a quote request from a customer through a customer terminal, and the quote request is sent to the sales department terminal, stored in the server, the server The control unit of the second step of creating a quotation and sending it to the sales department terminal, and the third step of the manager in the sales department terminal sending the quotation to the customer terminal after confirming the quotation, and the answer from the order from the customer terminal to the sales department terminal
- the sales department terminal sends to the project manager terminal, and when the project manager terminal inputs the result obtained through the internal initiation meeting, the control unit of the server automatically generates the target delivery date and the work request and stores it in the server,
- the project manager terminal requests a design task from the design terminal terminal, requests production into the production terminal terminal, and inspects the quality terminal terminal.
- the ninth step of producing on the basis of the disbursement results received from the procurement unit terminal, and the production unit manager inputs the results produced through the production unit terminal, the quality unit manager through the quality unit terminal quality results It may be configured to include a tenth step of inputting.
- the eighth step to confirm the drawing of the pipe spool, the eighth step to classify the number and length of each pipe and connector constituting the pipe spool, and the pipe from the inventory list And steps 8-3 of issuing allocation and dispensing results according to the length of the connector, and when the length of the pipe is different compared to the inventory list, allocating the pipe and issuing a cutting instruction instructing the cutting of the pipe. It may be configured to include steps 8-4.
- steps 9-3 step of cutting the pipe, the 9-4 step of allocating the cut pipe to a corresponding pipe, and the 9-5 of the other side of the cut pipe to be input to the inventory list can be configured to include steps.
- step 9-5 the cut pipe is entered into the inventory list when the length is greater than or equal to the reference value, classified as scrap if it is less than the reference value, and re-registered as a material for use. Is done.
- step 8-3 if the pipes and connectors that are relatively longer than the length of the pipes and connectors to be allocated are in the inventory list, they are allocated in order, and the pipes and connectors that are relatively longer than the lengths of the pipes and connectors to be allocated are If it is not in the inventory list, it is characterized in that the material manager requests the material receipt.
- step 8-3 if there is an item for a length among items, it is characterized in that it is classified into pipes.
- step 8-3 the material of the inventory list and the connector is assigned to a material having the same name for an item, material, size, and thickness (Sch). Is done.
- step 8-3 the materials of the inventory list and the pipe are assigned to materials having the same names for items, materials, sizes (Sch), and lengths (Len). It is characterized by.
- the pipe spool production management system includes a server in which various information for pipe spool production is stored, a control unit for controlling the server and each terminal, and information that a customer requests to manufacture the pipe spool.
- the customer terminal that inputs and outputs, receives the information of the customer terminal, transmits it to the server, issues a quotation, selects the project manager, inputs and outputs the input and output of the pipe spool from the sales terminal,
- a project manager terminal that inputs and outputs target delivery settings and work requests, and creates various drawings required for the production of pipe spools according to the set delivery schedule and work request generated by the project manager terminal, and relates to pipes, connectors, and subsidiary materials required for production
- a design part terminal that inputs and outputs purchase requests and purchase specifications, and a procurement part terminal that matches the material list based on the purchase request and purchase specifications sent from the design part terminal and outputs the output result by dispensing the corresponding pipes, connectors, and subsidiary materials.
- a production sub-terminal that assembles and produces a pipe spool on the basis of the disbursement result discharged from the procurement terminal, and inputs and outputs production results, and a quality sub-terminal that manages the quality of the pipe spool input through the production sub-terminal and outputs the result. It is characterized by being configured to include.
- the pipe spool production management system according to the present invention and the pipe spool production management method using the same have the following effects.
- FIG. 1 is a block diagram showing the configuration of a pipe spool production management system according to the present invention.
- Figure 2 is a flow chart showing a pipe spool production management method according to the present invention.
- Figure 3 is a flow chart showing the sequence after the pipe spool production management method of Figure 2;
- Figure 4 is a flow chart showing the sequence after the pipe spool production management method of Figure 3;
- Figure 5 is a flow chart showing the sequence after the pipe spool production management method of Figure 4.
- Figure 6 is a reference diagram showing a quote module generated in the pipe spool production management method according to the present invention.
- Figure 7 is a schedule management module reference diagram generated in the pipe spool production management method according to the present invention.
- Figure 8 is a material comparison management module reference diagram generated in the pipe spool production management method according to the present invention.
- Figure 9 is a purchase order reference diagram according to the purchase request generated in the pipe spool production management method according to the present invention.
- Figure 10 is a reference to the work instructions and results generated in the pipe spool production management method according to the present invention.
- FIG. 11 is a document management reference diagram of the instructions and results generated in the pipe spool production management method according to the present invention.
- FIG. 12 is a flow chart showing a method for automatically generating a pipe spool drawing according to the present invention.
- FIG. 13 is a view showing an Excel file in which basic data is described in the automatic generation method of a pipe spool drawing according to the present invention.
- FIG. 14 is a view showing a login screen of a program for a method for automatically generating a pipe spool drawing according to the present invention.
- 15 is a view showing a project registration screen of a program for a method for automatically generating a pipe spool drawing according to the present invention.
- 16 is a view showing a screen for manufacturing a DWG BOM file by loading basic data of a program for a method for automatically generating a pipe spool drawing according to the present invention.
- 17 is a view showing a screen for manufacturing a DWG BOM file of a program for an automatic method of generating a pipe spool drawing according to the present invention.
- FIG. 18 is a view showing a screen for inputting the position and azimuth of each component by importing a DWG BOM file of a program for the method for automatically generating a pipe spool drawing according to the present invention.
- 19 is a view showing a screen for generating an autocad file in a program for a method for automatically generating a pipe spool drawing according to the present invention.
- 20 is a view showing a screen by executing an autocad file in a program for a method for automatically generating a pipe spool drawing according to the present invention.
- 21 is a view showing a comparison of DWG DB and DWG BOM in a program for a method for automatically generating a pipe spool drawing according to the present invention.
- the project manager terminal 40 that receives information on the production of the target delivery and sets and outputs the target delivery date and the work request, and various necessary for the production of the pipe spool according to the target delivery setting and the work request generated by the project manager terminal 40 Create a drawing and match it with the material list based on the purchase request and purchase specifications received from the design sub terminal 50 and the design sub terminal 50 that inputs and outputs purchase requests and purchase specifications for pipes, connectors, and subsidiary materials required for production.
- Procurement terminal terminal 60 for dispensing and outputting the result of dispensing the corresponding pipes, connectors, and subsidiary materials, and a production unit that assembles and produces pipe spools based on disbursement results from the procurement terminal terminal 60 to input and output production results It may be configured to include a terminal 70 and a quality sub-terminal 80 that manages the quality of the pipe spool input through the production unit terminal 70 and inputs and outputs the result.
- the server 10 is provided in the pipe spool production management system of the present invention.
- the server 10 is in electrical communication with each terminal to be described below, and the server 10 serves to store basic data about the pipe spool and information input/output through each terminal to be described below.
- the server 10 is provided with a control unit 12.
- the control unit 12 serves to control the information of the server 10 and each information transmitted from each terminal and transmitted to each terminal.
- each terminal is provided, each terminal is the customer terminal 20, the sales terminal terminal 30, the project manager terminal 40, the design unit terminal 50, the procurement unit terminal 60, the production unit terminal 70 And it may be configured to include a quality unit terminal 80.
- the customer terminal 20, the sales unit terminal 30, the project manager terminal 40, the design unit terminal 50, the procurement unit terminal 60, the production unit terminal 70, and the quality unit terminal 80 are designed, respectively, It is installed in an easy-to-access place for each person in charge of purchasing, material, process, report, and inspection, and inputs and stores various design, purchase, material, process, report, and inspection-related information by each person in charge. It can be viewed as a device. That is, each terminal is provided with an input unit (not shown) for inputting and outputting various information related to design, purchase, material, process, report, and inspection, and related to the design, purchase, material, process, report, and inspection. A storage unit (not shown) for storing various information may be provided.
- the input unit and the storage unit may be provided directly mounted on each terminal, or may be provided in a manner connected to each terminal.
- the system further includes an output unit (not shown) capable of outputting a signal for requesting various tasks to each person in charge.
- the output unit is provided in each terminal, so that each person in charge can easily recognize it.
- the output unit may be mounted on a device other than the terminals or may be installed independently.
- Pipe spool production management method the first step of receiving a quote request from the customer through the customer terminal 20, and the quote request is sent to the sales department terminal 30, stored in the server 10
- the control unit 12 of the server 10 is a second step of creating a quotation and sending it to the sales department terminal 30, and in the sales department terminal 30, the manager confirms the quotation and sends it to the customer terminal 20
- the third step when a response from the customer terminal 20 is received from the customer terminal 20 to the sales unit terminal 30, the sales unit terminal 30 is transmitted to the project manager terminal 40, and the project manager terminal 40
- the control unit 12 of the server 10 automatically generates a target delivery date and a work request and stores it in the server 10, and transmits it to the customer terminal 20
- the project manager terminal 40 requests design work from the design unit terminal 50, and requests production from the production unit terminal 70, In the quality unit terminal 80, a fifth step of making a request for inspection, and
- the disbursement result is transmitted to the production unit terminal 70, the production unit terminal 70 is the drawing received from the design unit terminal 50, and the procurement unit terminal 60 Step 9 to produce based on the disbursement results received from ), and the raw An obstetrical manager may include a tenth step of inputting a result produced through the production unit terminal 70, and the quality unit manager inputting a quality result through the quality unit terminal 80.
- the first step of receiving a request for quotation regarding the production of the pipe spool from the customer through the customer terminal 20 proceeds.
- the production of the pipe spool receives a request from a customer, but in the present invention, it is described as through the customer terminal 20, but the customer terminal 20 can be any method that can be a production request.
- the quotation request is sent to the sales department terminal 30, stored in the server 10
- the control unit 12 of the server 10 is a second step of creating a quotation and sending it to the sales department terminal 30 Proceeds.
- the manager checks the quote and then transmits the quote to the customer terminal 20.
- the customer checks the contents of the quotation and inputs the order's answer through the customer terminal 20.
- the manager selects a project manager for manufacturing the corresponding pipe spool through the sales unit terminal 30 By doing so, the corresponding information is transmitted to the corresponding project manager terminal 40.
- the control unit 12 of the server 10 automatically generates a target delivery date and a work request form, and the server 10 And store the target delivery date and work request to the customer terminal 20.
- the target delivery date is selected through the project manager terminal 40 after an internal start-up meeting.
- the control unit 21 of the server 10 automatically calculates a plan by calculating information by date from the project start date to the end date or from the project end date to the start date, through which the target delivery is completed, and through the customer terminal 20 Data will be sent to the customer. This document is automatically updated until the completion of the project and delivered to the customer from time to time.
- a work request is generated through the control unit 12 of the server 10 and sent to the customer terminal 20. Accordingly, various procedures are submitted to the customer, and the production start is notified.
- the manager requests design work through the project manager terminal 40 through the project manager terminal 40, and requests production into the production unit terminal 70,
- the fifth step of making a request for inspection of the manufactured product is performed by the quality sub terminal 80.
- the manager checks through the project manager terminal 40, and the design work on the production of the pipe spool A request for start is transmitted to the design unit terminal 50, and a request for the production of the pipe spool is requested to the production unit terminal 70.
- the design manager prepares a basic drawing preparation, a production drawing, and a self-detailed detailed document, and a spool drawing and a travella are automatically prepared by the system. Accordingly, in the system, production information is automatically prepared, and a purchase request and a purchase specification are issued through the system.
- steps 6-1 of logging in to the present invention pipe spool production management system, steps 6-2 of entering a project name for a pipe spool to be produced, and basic data of components for the pipe spool.
- Steps 6-3 to import Steps 6-4 to create and store DWG BOM files, Steps 6-5 to run an input window for creating pipe spools, and Produce the pipe spools from the DWG BOM Steps 6-6, which specify the position and azimuth of each pipe for each step, and Steps 6-7, when the input of the steps 6-6 is completed, and Autocad the stored files.
- the design unit terminal 50 drives a program through an input unit to log in to step 6-1.
- step 6-2 of entering a project name or project name for a pipe design to be produced that is, a pipe spool
- step 6-2 of entering a project name or project name for a pipe design to be produced that is, a pipe spool.
- the information related to the pipe spool is stored in a file formed by the project name to form a drawing.
- steps 6-3 of loading basic data of the components related to the pipe spool proceed.
- the basic data is created in advance and stored in the server 10, as an Excel file as shown in FIG. 13, and the basic data is a spool list and BOM as shown in FIG. It consists of a list, the spool list is composed of the serial number, the longest length, and the BOM list is the serial number, spool number, ISO DWG, length, material and Information on whether or not insulation is stored and can be configured to be modified.
- steps 6-4 of generating and saving DWG BOM files for pipes and connection pipes constituting the pipe spool to be produced are performed.
- the number of required pipes and connection pipes are arranged in a file in order according to the configuration of the pipe spool, and a DWG BOM file is generated and stored.
- the BOM DB basic data is modified. As shown in FIG. 21, when doing, the number of the connecting portion connected to the basic data, the BOM DB, is connected in front of the connecting portion. Enter the number of pipes or connecting pipes to be connected and the number of pipes or connecting pipes to be connected later.
- each item (ITEM) item of the BOM DB has a JTNO item, and JTNO describes the contact points connected in order, and distinguishes it from the next number by'/' do.
- the BOM DB includes items of P1 and P2, and P1 describes the pipe or connection pipe before the number contact of the JTNO and P2 describes the pipe or connection pipe behind the number contact of the JTNO.
- serial number of KC0478 is composed of 5 parts, and the contact is divided into 0, 4, 5, 6, and 7.
- 90D ELBOW which is 5 times, is located in front of the contact point of 4, and PIPE SMLS, which is 1-2 times after the 4th, is located.
- PIPE SMLS of No. 1-2 is located in front of the No. 5 contact point, and SOCKOLET of No. 4 is located after the No. 5 contact point.
- PIPE SMLS of No. 1-2 is located in front of the No. 6 contact point, and SOCKOLET of No. 3 is located after the No. 6 contact point.
- PIPE SMLS of No. 1-2 is located in front of the No. 7 contact point, and CPLG HALF of No. 8 is located after the No. 7 contact point.
- each pipe or connection pipe is automatically arranged in order.
- steps 6-5 are performed to execute an input window for the pipe spool. Then, a window as shown in FIG. 18 appears.
- steps 6-6 of loading the DWG BOM file and calling the pipes and connecting pipes to input the structure of the pipe spool are performed.
- the pipes and connection pipes described in the DWG BOM are called and connected by designing them in the order of the structure of the pipe spool. That is, the pipes and connecting pipes described in the DWG BOM are placed on the CAD drawing according to the pipe spool.
- the position of one end of the first component is basically set in the coordinates (0, 0), and the user inputs the azimuth of the north and south according to the basic coordinates in the drawing. .
- the drawing orientation table is clicked in the window of FIG. 18, examples of N, S, E, W, NS, NW, SE, and SW are shown. Among them, the user can click and input through the input unit.
- one end of the second component is automatically connected to the other end of the first component, and the user inputs the azimuth of the north and south according to the basic coordinates in the drawing. Entering the bearing is as described above, the azimuth is shown in the example of N, S, E, W, NS, NW, SE, SW when clicking the drawing orientation table in the window of FIG. 18, of which the user inputs Just click and enter through the department.
- the component is a T-shaped connection pipe among the connection pipes
- one end of the connection pipe is automatically connected to other components, and the user enters the azimuth angle of the north and south relative to the basic coordinates in the drawing, and the other one For the inlet, the user enters the starting point of the flow of fluid, the azimuth of the north and south, relative to the basic coordinates on the drawing.
- the drawing orientation table is clicked in the window of FIG. 18, examples of N, S, E, W, NS, NW, SE, and SW are shown. Among them, the user can click and input through the input unit.
- the pipes are arranged according to the drawing of the pipe spool, and the pipes are sequentially arranged by the user inputting the azimuth of each pipe into the program.
- the information related to each component input from the basic data is called to the stored autocad file and automatically added to the autocad file to store the final autocad file.
- the control unit 12 of the server 10 prepares and procures a purchase request and a purchase specification for pipes, connectors, and materials that constitute the pipe spool.
- the seventh step of transmitting the sub terminal 60 proceeds.
- the control unit 12 of the server 10 matches the inventory list of the requested material and the received material, and then disposes and arranges the delivery result.
- the eighth step of transmitting is progressed.
- the procurement unit terminal 60 checks the receipt of pipes and connectors, which are raw materials, welding rods, and paints, which are subsidiary materials. That is, when the purchase request and the purchase specification are delivered from the procurement unit terminal 60, the procurement unit manager inputs a receipt inspection request for matching with a material list through the procurement unit terminal 60.
- Steps 8-4 proceed.
- steps 8-3 of allocating the pipe and the connector are compared with the inventory list.
- the inventory list is data stored in the server 10, and the BOM list and the items are the same, but an Excel file in which items for the number of inventory of each pipe and connector are additionally described.
- materials that are not allocated are re-allocated from the inventory list to other pipes classified as pipes.
- a pipe relatively longer than the length of the pipe to be allocated is added to the inventory list. If there is, it is allocated in order, and if a pipe relatively longer than the length of the pipe to be allocated is not in the inventory list, it is automatically stored in the purchase request sheet.
- steps 8-4 of issuing a cutting instruction proceed.
- the lengths of the pipes are different compared to the inventory list, the assigned pipes are issued a cutting instruction instructing the cutting of the pipe and the cutting instruction is transmitted to the production unit terminal 70.
- the dispensing result and the cutting instruction are transmitted to the production unit terminal 70, and the production unit terminal 70 is based on the drawing of the pipe spool received from the design unit terminal 50 and the dispensing result and the cutting instruction.
- the ninth stage of production is carried out.
- the ninth step includes marking the contents of the pipe on both sides of the cut portion of the pipe to be cut and the 9-1 step of checking the cut portion of the pipe based on the cutting instruction.
- step 9-5 if the cut pipe is longer than the reference value, enter it into the inventory list, and if it is shorter than the reference value, sort it into scraps and organize it, then through the production unit terminal (70). Enter the result value.
- the ninth step may further include a hole processing support. That is, when the allocation of the pipe and the connector is completed, and the allocation of the cut pipe is also completed, a hole processing guide is automatically issued for a portion of the pipe and the connector that requires machining of the hole as compared with the drawing.
- the production unit manager proceeds with the work and inputs the result through the production unit terminal 70.
- the production unit manager proceeds to work based on the above contents, and inputs the result through the production unit terminal 70.
- the manager of the production unit inputs the result produced through the production unit terminal 70, and the manager of the quality unit proceeds to the tenth step of inputting the quality result through the quality unit terminal 80.
- DI/VT dimension and visual inspection
- a final inspection instruction is automatically issued for items that do not require heat treatment non-destructive inspection and heat treatment, and a final inspection is performed, and the quality manager manages the quality unit terminal 80. Through this, the result value is entered on the system.
- the heat treatment is performed according to the heat treatment instruction, and the non-destructive examination is performed according to the non-destructive inspection instruction, and the manager of the quality unit inputs the result value to the system through the quality terminal 80.
- Hardness & PMI hardness test & ingredient test
- the final inspection instruction is automatically issued by the system, and the result value is entered into the system after the final inspection.
- a painting inspection instruction is automatically issued by the system, and after painting and inspection, the manager of the quality department inputs a result through the quality terminal 80.
- a packaging inspection instruction is automatically issued by the system, and after packaging and inspection, the manager of the quality department inputs a result through the quality unit terminal 80.
- the manager of the production unit performs shipment through the production unit terminal 70 and inputs a result value.
- each material may have a duplicate number vs. heat (1:N) for each heat number, it is operated to mark the heat number with the heat number (ex: Heat01[01]) and manage it.
- a third inspection is performed on the transcript for each heat number by checking the materials in the TOM (Materials List) inside the system.
- the embodiments described herein include application specific integrated circuits (ASICs), digital signal processors (DSPs), digital signal processing devices (DSPDs), programmable logic devices (PLDs), field programmable gate arrays (FPGAs), It may be implemented using at least one of processors, controllers, micro-controllers, microprocessors, and electrical units for performing other functions.
- ASICs application specific integrated circuits
- DSPs digital signal processors
- DSPDs digital signal processing devices
- PLDs programmable logic devices
- FPGAs field programmable gate arrays
- the described embodiments can be implemented with the management server and/or the system itself.
- embodiments such as procedures and functions described herein may be implemented as separate software modules.
- Each of the software modules may perform one or more functions and operations described herein.
- Software code can be implemented in software applications written in the appropriate programming language.
- the software code may be stored in a management server and/or database and executed by an app.
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Abstract
La présente invention concerne un système de gestion de production de tronçon de tuyau et un procédé de gestion de production de tronçon de tuyau, le système de gestion de production de tronçon de tuyau comprenant : un serveur pour mémoriser divers types d'informations pour la fabrication d'un tronçon de tuyau, une unité de commande pour commander le serveur et chaque terminal ; un terminal client par le biais duquel un client entre et sort des informations pour demander la fabrication d'un tronçon de tuyau ; un terminal de service de vente pour transmettre des informations concernant le terminal client au serveur, établir un devis et sélectionner un gestionnaire de projet et effectuer des entrées et des sorties ; un terminal de gestionnaire de projet pour définir une date de livraison cible et entrer et sortir une demande de tâche en recevant des informations de fabrication de tronçon de tuyau en provenance du terminal de service de vente ; un terminal de service de conception pour créer divers types de dessins requis pour la fabrication de tronçon de tuyau selon la date de livraison cible définie et la demande de tâche générée par le terminal de gestionnaire de projet et entrer et sortir une demande d'achat et une spécification d'achat associées à des tuyaux, des orifices de raccordement et des matériaux subsidiaires nécessaires à la fabrication ; un terminal de service d'approvisionnement, qui sort des tuyaux, orifices de raccordement et matériaux subsidiaires correspondants par mise en correspondance de ceux-ci avec une liste de matériaux sur la base de la demande d'achat et de la spécification d'achat reçues en provenance du terminal de service de conception, permettant ainsi d'entrer et de sortir le résultat de la sortie ; un terminal de service de production, qui assemble et produit des tronçons de tuyau sur la base du résultat de la sortie du terminal de service d'approvisionnement de façon à entrer et à sortir le résultat de production ; et un terminal de service qualité, qui gère la qualité des tronçons de tuyau entrés par le biais du terminal de service de production de façon à entrer et à sortir le résultat associé.
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KR1020190006020A KR101995686B1 (ko) | 2019-01-17 | 2019-01-17 | 파이프 스풀 생산관리 시스템 및 이를 이용한 파이프 스풀 생산관리 방법 |
KR10-2019-0006020 | 2019-01-17 |
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WO2020149486A1 true WO2020149486A1 (fr) | 2020-07-23 |
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PCT/KR2019/011164 WO2020149486A1 (fr) | 2019-01-17 | 2019-08-30 | Système de gestion de production de tronçon de tuyau et procédé de gestion de production de tronçon de tuyau faisant appel à celui-ci |
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KR101995686B1 (ko) * | 2019-01-17 | 2019-07-02 | 최흥철 | 파이프 스풀 생산관리 시스템 및 이를 이용한 파이프 스풀 생산관리 방법 |
KR102230813B1 (ko) * | 2020-11-05 | 2021-03-22 | 방홍철 | 배관 및 이의 도면 설계 방법, 이를 이용한 배관 설치 시스템 |
KR20240058338A (ko) | 2022-10-26 | 2024-05-03 | 주식회사 글로벌에스이 | 조선 및 각종 플랜트 산업에서 파이프 작업고도화를 위한 3d 기반 스마트 작업정보 관리 시스템 |
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KR101995686B1 (ko) * | 2019-01-17 | 2019-07-02 | 최흥철 | 파이프 스풀 생산관리 시스템 및 이를 이용한 파이프 스풀 생산관리 방법 |
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KR100981044B1 (ko) | 2003-05-22 | 2010-09-09 | 두산중공업 주식회사 | 배관 제작 도면의 통합 작성 방법 |
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- 2019-01-17 KR KR1020190006020A patent/KR101995686B1/ko active IP Right Grant
- 2019-08-30 WO PCT/KR2019/011164 patent/WO2020149486A1/fr active Application Filing
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JP2002251428A (ja) * | 2000-12-19 | 2002-09-06 | Hitachi Metals Ltd | 配管部材受発送システム |
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