KR20210124016A - Apparatus and Method for Processing data for securing Instrument item - Google Patents

Abstract

The present invention relates to a data processing device and a data processing method for ensuring an equipment and instrument installation quantity in a field work operation system. The device includes: a data collection unit collecting production data; a data extraction unit extracting necessary data from the collected production data by a user-defined mapping table; a data processing unit processing the data extracted from the data extraction unit into a predetermined format; and a data providing unit providing the data processed by the data processing unit to a following worker. According to the present invention, a work target is daily updated in the field work operation system and information for smooth production can be automatically provided through field work preparation. As a result, the following worker does not have to check and grasp preceding work history and conditions in trying to understand the current work.

Description

{Apparatus and Method for Processing data for securing Instrument item}

The present invention relates to a data processing method and apparatus, and to a data processing apparatus and method for securing equipment and equipment installation quantity in more detail and effectively.

In general, the composition of various electronic and control equipment mounted on ships becomes complicated, and in order to design and produce products of various specifications, the electrical and instrumentation design process in which the positions and correlations of elements constituting such components must be determined is inevitable. should be done with

In this case, in general, in order to install the instrument for the electric and instrumentation constituting the ship, an installation drawing or hook-up drawing including the material requirements for the instrument and the installation location of the instrument, etc. is provided.

An installation drawing or a hook-up drawing is a drawing that can provide information on the operator's instrument installation work by showing the location where the instrument is installed, the quantity of materials, the method of installing the instrument, etc.

Various information for installing the instrument must be accurately posted on the installation drawing or hook-up drawing, and it is important to calculate the quantity for instrument material among them.

In general, contracts are made by EPC or PC methods when receiving and executing a project order. During the design process, in the case of EPC, the contractor performs design, purchase, production, and test operation in one batch, but in the case of PC contract, only a part of bulk material purchase and production is performed.

In this case, both the former and the latter indicate the Tag No. for the material marked on the drawing in the design and the Tag No. for the material ordered and received from purchase. should be the same However, in the latter case, the design company acts on behalf of the purchase, so another Tag No. is sometimes used. In this case, since an external company (a company specializing in basic design) performs the basic design, the production company (shipyard) prepares a production drawing (Shop Dwg) separately.

At this time, the shipyard uses the standardized material Tag No. unique to the shipyard. At this time, there are cases where the tag purchased by the basic design company and the tag number of the shipyard are different.

At this time, the problem is that the purchased material has the buyer's Tag No. and the shipyard's Tag No. There are times when it is very difficult to confirm the actual item because the Tag No. is different even though it is the same item. Tag No. to match different Tag Nos. Mapping is required.

In addition, the quantity of materials required for instrument installation is calculated based on the production drawing (Shop Dwg), and the MTO quantity is input and recorded in the shipyard's internal system. In this case, the production and installation department (partners) performs the work based on the mutually matched Tag No. with the purchase standard MTO list provided by the basic designer for the shipyard quantity list and the material list for the goods received.

However, the manual work in which the quantity files designed and issued through MTO work were searched one by one to calculate the quantity for the instrument material and the calculated quantity was directly entered into a program such as Excel, the material quantity was reduced due to the excessive number of items and quantity. There are problems in that it is difficult to accurately calculate the quantity of materials because there is a high possibility of errors in the calculation workers, and it takes excessive work time (M/H), and there are problems in that it is difficult to meet the material installation schedule.

The present invention particularly relates to an instrument installed directly on a pipe & tube among the pre-instrumentation instruments mentioned herein.

This is because the pre-instrumentation installation department (supplier) performs the installation work for the pre-instrumentation equipment installed in the pipe, not the pipe installation department (supplier).

In addition, it is difficult to understand the installation work of the previous and instrumentation departments, where the plumbing department, which is the preceding department, is the succeeding department in the two different work departments, and it is also a practical problem at the construction site that it does not consider the installation method or constructability of the work.

The problem is that in the production department, which is the installation department, in terms of the order and method of on-site construction, the department (including the partner company) doing the pipe & tupe work is different from the previous and the instrumentation installation department (supplier) After installation, and after the internal pressure test (including the hydro test), the pipe restoration, which is the stage before the final commissioning, must be installed before installation. At this time, for the pressure test of the pipe, a specific section is set in units of packages, and the packages are cut by section and section pressure test units, and the number of packages is also composed of thousands of pressure test packages.

At this time, from the point of view of the previous and instrumentation departments (suppliers), which are the following departments, it is impossible to grasp the status of each stage process in the unit of thousands of packages that the piping department (partners), which is the preceding department, is running, and the installation time of instrumentation without checking the actual product. The problem arises that it is very difficult to understand. In the past, in order to solve this problem, the succeeding department continuously grasped the process status of the preceding department, and the information of the type of instrument installed on the pipe line (the status of purchase of goods / whether drawings were issued, etc.) was manually grasped in kind. Therefore, the reality is that the current resignation, the class leader, or the worker decides and installs it.

US 10-2014-0070817 A US 10-2011-0058062 A US 10-1964838 B1

The present invention is derived from this technical background, and provides a data processing apparatus and method capable of managing and providing information on the quantity of equipment and equipment installed for smooth production activities through preparation for electric field work in an electric field operation operating system. There is a purpose.

In addition, it is intended to provide a data processing device and method that can quickly and accurately prepare, start, and complete tasks without waiting time for pre/instrumentation tasks based on the information of automatically created preceding tasks.

Specifically, the status of the process progress (piping, valve, installation of various equipment, etc., pipe welding, NDE, line work, test, FMS, restoration of the last process) for all stages of the preceding department is identified and each instrumentation and instrumentation is individually carried out. Based on Tag No., we want to provide a data processing device and method that can find and manage the Work Front that can be installed and Blocking Point that cannot be installed by item in connection with Test Packages and by Pipe In-Line.

The present invention for achieving the above object includes the following configuration.

That is, the data processing apparatus for securing equipment and equipment installation quantity according to an embodiment of the present invention extracts necessary data from the collected production data by a data collection unit that collects production data and a user-defined mapping table and a data extracting unit that processes the data extracted by the data extracting unit into a predetermined format, and a data providing unit that provides the data processed by the data processing unit to a subsequent worker.

At this time, the production data includes at least one of Instrument Tag.No or ITR Data, FMS Data, Hydro Test Inspection Data, and production F/Up sheet on the electric field operation system.

In one aspect, the user-defined mapping table of the data processing apparatus for securing equipment and equipment installation quantity according to an embodiment defines a part of the production data as a parent code, and defines a child code matching the parent code characterized.

On the other hand, the data processing method performed in the data processing device for securing equipment and equipment installation quantity includes the steps of a data collection unit collecting production data, and a data extraction unit extracting necessary data from the collected production data by a user-defined mapping table. Step, the data processing unit processing the data extracted by the data extraction unit in a predetermined format, and a data providing unit comprising the steps of providing the processed data to a subsequent worker.

At this time, the production data includes at least one of Instrument Tag.No or ITR Data, FMS Data, Hydro Test Inspection Data, and production F/Up sheet on the electric field operation system.

In one aspect, the user-defined mapping table of the data processing method for securing equipment and equipment installation quantity according to an embodiment defines a part of the production data as a parent code, and defines a child code matching the parent code characterized in that

According to the present invention, since it is possible to automatically provide information for smooth production activity through electric field work preparation by updating the work target every day in the electric field operation operating system, the following worker can check the preceding work history and situation one by one and It has the effect of deriving a data processing device and method that can understand the current work without understanding it.

In addition, there is an effect that can improve work efficiency by automating the existing manual data aggregation process.

In addition, it is possible to quickly and accurately prepare, start, and complete work without waiting time for pre/instrumentation work based on the automatically created preceding work information, enabling immediate response to changes in the preceding and succeeding work standards and calculating work targets It has the effect of being able to respond promptly to standard changes and adjustments.

1 is a block diagram showing the configuration of a data processing apparatus according to an embodiment of the present invention;
2 is an exemplary diagram of a mapping table according to an embodiment of the present invention;
3 is an exemplary view of a Work Front Summary Report provided by a data providing unit according to an embodiment of the present invention;
4 is an exemplary view of a detailed list of Work Front according to an embodiment of the present invention;
5 is an exemplary view of a list displaying prior work progress information according to an embodiment of the present invention;
6 is a flowchart of a data processing method according to an embodiment of the present invention.

It should be noted that the technical terms used in the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. In addition, the technical terms used in the present invention should be interpreted as meanings generally understood by those of ordinary skill in the art to which the present invention belongs, unless otherwise defined in particular in the present invention, and excessively comprehensive It should not be construed in the meaning of a human being or in an excessively reduced meaning.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating the configuration of a data processing apparatus according to an embodiment of the present invention.

It is to secure the amount of equipment and equipment installed in the electric field operation operating system according to an embodiment, and to acquire information that is precedent for electric field work, and to prepare for electric field work based on the acquired information, smooth production activities proceed Manage and provide data information for

To this end, the data processing apparatus according to an embodiment defines the criteria of the preceding task and the succeeding task, and creates a preceding and succeeding mapping table in which the relation between the preceding task and the succeeding task is defined based on the defined task.

Specifically, it is possible to define the complete list of follow-up tasks related to the completion of the predecessor task, receive the predecessor task performance on a daily basis, and connect the predecessor tasks based on the mapping table.

The data processing apparatus 10 according to an exemplary embodiment may provide a follow-up worker with a post-task possible list for the preceding job performance based on the mapping table relationship so that the job can be easily linked.

As shown in FIG. 1 , the data processing device 10 for securing the amount of equipment and equipment installed according to an embodiment includes a data collection unit 110 , a data extraction unit 120 , a data processing unit 130 , and a data providing unit ( 140 ) and a mapping table storage unit 150 .

The data collection unit 110 collects production data. Production data is interpreted to encompass separate raw data directly managed at the production site.

In one embodiment, the production data includes at least one of Instrument Tag No or ITR Data, FMS Data, Hydro Test Inspection Data, and production F/Up sheet on an electric field operation operating system.

The data collection unit 110 may receive production data from an external storage device in a wired or wireless manner, or may receive data from a user terminal possessed by a preceding worker based on network communication. Alternatively, production data may be input from each equipment included in the electric field operation operating system. However, the present invention is not limited thereto.

The data extraction unit 120 extracts necessary data from the production data collected by the data collection unit 110 by a user-defined mapping table. According to an embodiment, the data extraction unit 120 extracts data necessary to write data related to a subsequent job from various types of preceding data.

That is, the data extraction unit 120 extracts production data, that is, data necessary for processing into information necessary for a subsequent job from among the data related to the preceding job, based on the mapping table.

2 is an exemplary diagram of a mapping table according to an embodiment of the present invention.

In an embodiment, the mapping table defines a part of the production data as a parent code as shown in FIG. 2 and defines a child code matching the parent code.

When the completion information is entered by designating the child code based on the item defined as the parent code, a mapping table that can follow up is created.

As shown in FIG. 2, information is transferred to the state of the preceding task by linking the performance of the preceding task based on the code defined in the mapping table.

In one embodiment, a child code (AE: Analyzer Element - Corrosion/Erosion, AT: Analyzer XMTR - Corrosion/Erosion) is assigned to an item defined as a parent code (AE: Analyzer Element - Corrosion/Erosion).

In addition, a child code (BDY: Blow Down Valve, BDY) may be assigned to an item defined as a parent code (BDV: Blow Down Valve), and the parent/child code may be defined differently from the above according to the work definition method. .

And at this time, the mapping table further includes a type (Type) and ITR fields for each of the child codes.

In one embodiment, the ITR is A-IN-02, A-EX- to the type of the child code (AE: Analyzer Element - Corrosion/Erosion) in the item defined as the parent code (AE: Analyzer Element - Corrosion/Erosion) 02, including the case of A-EL-28, can be determined in advance. ITR can be expressed differently from the above according to the definition method of work.

In addition, if ITR is A-IN-02 in the type of child code (AT: Analyzer XMTR - Corrosion/Erosion) in the item defined with the same parent code (AE: Analyzer Element - Corrosion/Erosion), Tag No is AT-10100202, When the ITR is A-EL-28, it may be predetermined so that objects whose Tag No is indicated as DC-AT-10100202 are mapped.

Additionally, the mapping table further includes a remark (Remark) item, and in this case, the comment (Remark) item may further include a field for Find key, Main Tag, Main ITR, Equipment information.

Specifically, if ITR is A-IN-02 to the type of child code (AE: Analyzer Element - Corrosion/Erosion), Find Key is mapped to AE-, Main Tag is AE-, and Main ITR is mapped to A-IN-02 data. do.

In addition, when the ITR is A-EX-01, the data whose Find Key is AE-, Main Tag is AE-, and Main ITR is A-IN-02 is mapped.

Also, when ITR is A-EL-28, Find Key is mapped to DC-AE-, Main Tag is AE-, and Main ITR is A-IN-02 data. However, the present invention is not limited thereto.

In one embodiment, the mapping table serves as a medium for transferring information in a state in which a subsequent task is possible when the preceding task completion information is input.

In addition, the data processing unit 130 processes the data extracted by the data extraction unit 120 into a predetermined format. That is, the data extracted by the data extraction unit 120 is regenerated into data required by the user.

The data providing unit 140 provides the data processed by the data processing unit 130 to the subsequent worker to provide the data so that the subsequent operation is possible. In this case, the format of the data provided by the data providing unit 140 is not limited, and it can be variously modified into a format and structure that is easy for a subsequent worker to grasp information necessary for a job.

In one aspect, the data providing unit 140 provides processed data in a report format according to a user's request. For example, the processed data may be processed in the format of Work Front Status and Blocking Point List.

3 is an exemplary diagram of a Work Front Summary Report provided by the data providing unit according to an embodiment of the present invention.

In one embodiment, the Work Front Summary Report processed by the data processing unit 130 shows the target of the work by area (Area) by company (Sub.con), total quantity of equipment (Qty field), completion (Completed), progress rate (%), it is expressed through the aggregation of the remaining items (Remain).

In one embodiment, the Work Front Summary Report of FIG. 3 displays aggregates of the total quantity (Qty field), completed (Completed), progress (%), and remaining items (Remain) for Instrument Equipment. In addition, as Work Front information, it includes FMS completion standards for each area and sub-con, Re-in (pipe restoration) completion standards, and quantity information of the Mapping field of the follow-up work department (electrical field book).

In addition, for MC ITR, the total amount of equipment (Qty field), completed (Completed), progress (%), and the aggregate of remaining items (Remain) are displayed. In addition, as Work Front information, FMS completion standards, Re-in completion standards, and quantity information of the electric field book mapping field are included for each sub-con by area.

In addition, the HYD Package field includes quantity information on the progress of the preceding work in the Total, Restoration Completed, and Restoration Uncompleted fields by area and sub-con.

Accordingly, the operator can accurately and quickly grasp the work situation by area and sub-con.

And at this time, if the preceding is completed based on the mapping table for the remaining items, the workable quantity can be aggregated like the part marked with a red border in the Work Front field (Re-in field).

At this time, if the item is selected by clicking it with the mouse, a list of detailed work items is provided.

4 is an exemplary view of a detailed list of Work Front according to an embodiment of the present invention.

The data providing unit 140 of the data processing apparatus 10 according to an exemplary embodiment provides the detailed list of FIG. 4 when an aggregate value of an item is clicked and selected from the list of FIG. 3 .

As shown in Fig. 4, it is possible to check the information of the work target and the progress status of the preceding work in detail. Also, if you click the aggregate value corresponding to the predecessor item with the mouse, you can check the progress of the predecessor item by clicking the aggregate value corresponding to the predecessor item.

Specifically, the detailed list of Work Front in FIG. 4 includes Tag No. for each item, Tag Description, ITR No., Status, Mapping Tag, partner company, Area information, Module information, MC Area, Sub System information, FMS information, HYD. Includes Test Package information.

Status information indicates whether the status is Stand by (job not completed) or Completed (job completed) status. In addition. Specifically, the FMS information includes fields for connection 1, connection 2, inspection completion, and FMS Work Front. Also HYD. Test Package includes representative No., HYD Test PKG related quantity, HYD Test PKG completed quantity, and recovery work front fields. In this case, it is possible to sort by each field.

In addition to the above, it is possible to additionally provide information necessary to proceed with the work.

5 is an exemplary view of a list displaying prior work progress information according to an embodiment of the present invention.

The preceding task information may determine whether to perform a subsequent task. Accordingly, when the task manager clicks and selects detailed information of a subsequent task, the data providing unit 140 provides a list of preceding task progress information as shown in FIG. 5 that can check the state of the preceding task of the corresponding item.

As shown in Figure 5, the preceding work progress information is module information, Zone information, Test Package information, Combined Package information, L/W sub-con information, Re-in sub-con, Sub-System, QM Review Status Actual, Line Walk, Includes Test, Re-Instate, Joint Integrity, and Forecast (L/W, Test, Re-in fields).

Line Walk, Test, Re-Instate, and joint integrity fields are included in the Actual Status by Test Package, and information on the date on which the preceding work was performed for each test package is provided for each field, and the forecast schedule for the preceding work is also provided. is provided

Information on which work has been completed is linked based on the mapping table and provided as information that can be followed up.

Accordingly, it is not necessary to manually manage the work object in an Excel program by finding the modeled files one by one for material quantity calculation and counting the materials for the modeled files. The quantity for the work target of the instrument can be calculated automatically.

According to the data processing apparatus according to an embodiment, when a user inputs (imports) prior work data managed by a user, a result such as a report-type Work Front Summary Report is automatically generated.

Therefore, it is possible to improve work accuracy and efficiency by automating manual data aggregation.

The mapping table storage unit 150 is implemented as a data storage device such as a memory. Computer-readable recording media include volatile memory such as SRAM (Static RAM), DRAM (Dynamic RAM), SDRAM (Synchronous DRAM), ROM (Read Only Memory), PROM (Programmable ROM), EPROM (Electrically Programmable ROM), Nonvolatile memory such as Electrically Erasable and Programmable ROM (EEPROM), flash memory device, phase-change RAM (PRAM), magnetic RAM (MRAM), resistive RAM (RRAM), ferroelectric RAM (FRAM), floppy disk, hard disk, or The optical reading medium may be, for example, a storage medium such as a CD-ROM or DVD, but is not limited thereto.

In an embodiment, the mapping table storage unit 150 stores a mapping table generated by an operator. The mapping table stored in the mapping table storage unit 150 may be modified at the request of the operator.

6 is a flowchart of a data processing method according to an embodiment of the present invention.

In an embodiment, the data processing method is performed in a data processing apparatus for securing equipment and equipment installation quantity.

First, when there is input of production data, that is, pre-processing data (S600), the data collection unit collects production data (S610).

In one embodiment, the production data is an Instrument Tag No. Or at least one of ITR Data, FMS Data, Hydro Test Inspection Data, and Production F/Up Sheet. However, the present invention is not limited thereto.

Meanwhile, in response to a mapping table input request (S620), the mapping table is input and stored (S625).

In one aspect, the user-defined mapping table defines a portion of the production data as a parent code, and defines a child code matching the parent code.

When the completion information is entered by designating the child code based on the item defined as the parent code, a mapping table that can follow up is created.

In one embodiment, information is transferred to the state of the preceding task by linking the performance of the predecessor task based on the code defined in the mapping table.

In one embodiment, a child code (AE: Analyzer Element - Corrosion/Erosion, AT: Analyzer XMTR - Corrosion/Erosion) is assigned to an item defined as a parent code (AE: Analyzer Element - Corrosion/Erosion).

In addition, a child code (BDV: Blow Down Valve, BDY) may be assigned to an item defined as a parent code (BDV: Blow Down Valve). However, the present invention is not limited thereto and is construed to encompass various modifications.

And at this time, the mapping table further includes an ITR field for each of the child codes.

Additionally, the mapping table further includes a remark (Remark) item, wherein the comment (Remark) item may further include a field for Find key, Main Tag, Main ITR, Equip information. However, the present invention is not limited thereto.

In one embodiment, the mapping table serves as a medium for transferring information in a state in which a subsequent task is possible when the preceding task completion information is input.

And the data extraction unit extracts the necessary data from the collected production data by the user-defined mapping table (S630).

Based on the mapping table, the data extraction unit extracts production data, that is, data necessary for processing into information necessary for a subsequent job from among data related to the preceding job.

In an exemplary embodiment, the step of extracting data is to extract data necessary to create data related to subsequent work from various types of preceding data.

And the data processing unit processes the data extracted from the data extraction unit into intermediate management data before providing the data to the operator (S640).

Thereafter, the data providing unit provides the processed data to the following worker (S650).

In one aspect of the present invention, the data providing unit provides processed data in a report format according to a user's request.

In one embodiment, the data providing unit provides the data, the Work Front Summary Report processed by the data processing unit, by area (Area) by company (Sub.con), total quantity of equipment (Qty field), It is indicated through the aggregation of whether completed (Completed), progress (%), and remaining items (Remain).

In addition, as Work Front information, FMS completion standards by area and sub-con, Re-in (pipe restoration) completion standards, and quantity information of the follow-up work department (electric field book) Mapping field are included.

In addition, for MC ITR, the total amount of equipment (Qty field), completed (Completed), progress (%), and the aggregate of remaining items (Remain) are displayed. In addition, as workfront information, FMS completion standards, re-in completion standards, and quantity information of the electric field book mapping field are included for each sub-con by area.

In addition, the HYD Package field includes quantity information on the progress of the preceding work in the Total, Recovery Complete, and Recovery Incomplete fields by area and sub-con.

Accordingly, the operator can accurately and quickly grasp the work situation by area and sub-con.

At this time, when the preceding is completed based on the mapping table for the remaining items, the workable quantity can be aggregated like the part marked with a red border in the Workfront field (Re-in field).

At this time, if you click and select the relevant item with the mouse, a list of Workfront detailed work items is provided.

In the list of Workfront detailed work items, it is possible to check the information of the work target and the progress status of the preceding work in detail. In addition, if you click the aggregate value corresponding to the predecessor item with the mouse, you can check the progress of the predecessor item by clicking the aggregate value corresponding to the predecessor item.

Specifically, the list of detailed Workfront work items includes Tag No. for each item, Tag Description, ITR No., Status, Mapping Tag, Supplier, Area information, Module information, MC Area, Sub System information, FMS information, HYD. Includes Test Package information.

Additionally, the data providing unit provides a list of prior work progress information in which the task manager can check the status of the preceding work of the corresponding item when the task manager clicks and selects detailed information of the succeeding task.

In one embodiment, the preceding work progress information is module information, Zone information, Test Package information, Combined Package information, L/W sub-con information, Re-in sub-con, Sub-System, QM Review Status Actual, Line Walk , Test, Re-Instate, Joint Integrity, Forecast (L/W, Test, Re-in fields), and additional related information can be provided.

Line Walk, Test, Re-Instate, and joint integrity fields are included in Actual status by Test Package, and information on the date on which the preceding work was performed for each test package is provided for each field, and the forecast schedule for the preceding work is also provided. is provided

Information on which work has been completed is linked based on the mapping table and provided as information that can be followed up.

Accordingly, it is not necessary to manually create a work target in an Excel program by finding the modeled files for calculating the quantity of materials one by one and counting the materials for the modeled files. The workable quantity for the material can be automatically calculated.

According to the data processing method according to an exemplary embodiment, when a user inputs (imports) prior task data managed by a user, a result such as a report-type Workfront Summary Report may be automatically generated by the mapping table.

Therefore, it is possible to improve work accuracy and efficiency by automating manual data aggregation.

The above-described method may be implemented as an application or implemented in the form of program instructions that may be executed through various computer components and recorded in a computer-readable recording medium. The computer-readable recording medium may include program instructions, data files, data structures, etc. alone or in combination.

The program instructions recorded on the computer-readable recording medium are specially designed and configured for the present invention, and may be known and available to those skilled in the computer software field.

Examples of the computer-readable recording medium include a hard disk, a magnetic medium such as a floppy disk and a magnetic tape, an optical recording medium such as a CD-ROM and DVD, and a magneto-optical medium such as a floppy disk. media), and hardware devices specially configured to store and execute program instructions such as ROM, RAM, flash memory, and the like.

Examples of program instructions include not only machine language codes such as those generated by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like. The hardware device may be configured to operate as one or more software modules to perform processing according to the present invention, and vice versa.

Although the above has been described with reference to the embodiments, those skilled in the art will understand that various modifications and changes can be made to the present invention without departing from the spirit and scope of the present invention as set forth in the following claims. will be able

10: data processing device 110: data collection unit
120: data extraction unit 130: data processing unit
140: data providing unit 150: mapping table storage unit

Claims (2)

a data collection unit for collecting production data, which is data related to the preceding work of the preceding worker;
a data extraction unit for extracting data necessary for processing into information necessary for a subsequent operation from the collected production data based on a user-defined mapping table;
a data processing unit for processing the data extracted by the data extraction unit into a predetermined format; and
Including; a data providing unit for providing the data processed by the data processing unit to a subsequent worker;
The user-defined mapping table is characterized in that a part of the production data is defined as a parent code, and a child code matching the parent code is defined,
The mapping table is further characterized in that it comprises a Remark item including a Find key, Main Tag, Main ITR, Equipment information field,
The data providing unit sets the target of the work by area (Area) by company (Sub.con), total quantity of equipment (Qty field), completed (Completed), progress (%), and remaining items (Remain) Work including aggregation Provide the Front Summary Report to the follow-up workers, but
The Work Front Summary Report displays the aggregate of the total quantity of equipment (Qty field), completed (Completed), progress (%), and remaining items (Remain) for Instrument Equipment,
As Work Front information, it includes FMS completion standards by area and sub-con, re-in (pipe restoration) completion standards, and quantity information in the Mapping field of the follow-up work department (electrical field book).
The production data is the Instrument Tag No. Or ITR Data, FMS Data, Hydro Test Inspection Data, data processing device for securing equipment and equipment, characterized in that it includes at least one of the production F / Up sheet.
In the data processing method performed in a data processing device for securing equipment and equipment installation quantity,
Collecting, by the data collection unit, production data that is data related to the preceding work of the preceding worker;
extracting, by a data extraction unit, data necessary for processing into information necessary for a subsequent operation from the collected production data based on a user-defined mapping table;
processing, by a data processing unit, the data extracted by the data extraction unit into a predetermined format; and
Including; providing a data providing unit the processed data to a follow-up worker;
The user-defined mapping table is characterized in that a part of the production data is defined as a parent code, and a child code matching the parent code is defined,
The mapping table is further characterized in that it comprises a Remark item including a Find key, Main Tag, Main ITR, Equipment information field,
The providing step includes aggregation of the target of the work by area (Area) by company (Sub.con), total quantity of equipment (Qty field), completed (Completed), progress (%), and remaining items (Remain) Provide the Work Front Summary Report to the follower, but
The Work Front Summary Report displays the aggregate of the total quantity of equipment (Qty field), completed (Completed), progress (%), and remaining items (Remain) for Instrument Equipment,
As work front information, it includes FMS completion standards by area and sub-con, re-in (pipe restoration) completion standards, and quantity information in the Mapping field of the follow-up work department (electrical book book).
The production data is the Instrument Tag No. Or ITR Data, FMS Data, Hydro Test Inspection Data, data processing method, characterized in that it comprises at least one of the production F / Up sheet.

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