KR101509716B1 - Apparatus and method for controlling intelligent drawing - Google Patents

Abstract

An intelligent drawing control apparatus and method are disclosed. An intelligent drawing control apparatus according to the present invention includes an input unit for receiving a control command and a plurality of different drawing files from a user, a plurality of drawing units for extracting and collecting information necessary for plant operation among information contained in each of a plurality of different files, And a control unit for detecting and outputting plant facility information corresponding to the control command among the plurality of plant facility information. According to the present invention, the plant facility can be easily grasped, and the management and modification of the drawings are easy.

Description

[0001] APPARATUS AND METHOD FOR CONTROLLING INTELLIGENT DRAWING [0002]

The present invention relates to an intelligent drawing control apparatus and method. And more particularly to an intelligent drawing control apparatus and method for controlling an intelligent drawing including a plurality of plant facility information generated by extracting and collecting information contained in each of a plurality of different drawing files.

The drawings used for the plant (PLANT) mainly include PNIP (Piping And Instrumentation Drawing), PIPING PLAN, and ISO drawings. However, the PNID drawing is a drawing for the plant operation, but there is a disadvantage that the actual distance can not be measured. PIPING PLAN drawing is designed to measure actual distance, but since it is a drawing for construction, there are many unnecessary symbols in plant operation. It's hard to see.

In addition, in the case of the ISO drawing, it is easy to grasp the drawing because it is constructed in three dimensions, and there are many unnecessary symbols, and the number of the drawings is not unified into one, so that it is difficult to search and manage information about a specific facility.

Korean Patent Laid-Open Publication No. 2013-0120311 discloses a ship design electronic drawing management system and method, but does not disclose a technique for extracting merits using various drawing files.

Therefore, there is a need for a technique of extracting only the elements necessary for plant operation among a plurality of drawing files and fusing the merits of the drawings.

In addition, in order to easily grasp the facilities of the plant, it is possible to construct a 3D system by using a unique code expressing the outline of the facility information, thereby reducing the memory capacity and providing an intelligent A drawing control device and a method are required.

It is an object of the present invention to make it possible to generate an intelligent drawing including a plurality of plant facility information by extracting and collecting only information necessary for plant operation among a plurality of drawing files.

It is also an object of the present invention to provide a unique code including information on a plant facility and to reduce the memory capacity used in the drawing by implementing 3D in a single line in constructing a plurality of facilities existing in a plant It is possible.

It is also an object of the present invention to realize a plurality of planes overlapping a plurality of planes formed per plant facility, thereby enabling the user to accurately recognize a desired plant facility among the overlapped plant equipments.

It is also an object of the present invention to provide a method and apparatus for detecting plant facility information corresponding to a tag by recognizing a tag of a plant facility to which a tag is attached and registering information on the plant facility detected in the DB storing information on the plant facility It is possible.

According to another aspect of the present invention, there is provided an intelligent drawing control apparatus including an input unit for receiving control commands and a plurality of different drawing files from a user, Extracting and collecting the plurality of pieces of plant equipment information, and a control unit for detecting and outputting plant equipment information corresponding to the control command among the plurality of pieces of plant equipment information .

At this time, the plurality of different drawing files may be PNID, PIPING PLAN, and ISO.

At this time, the generator extracts information on the plant facility from the PNID drawing file, extracts information on the location and distance of the plant facility from the PIPING PLAN drawing file, extracts information on the location and distance of the plant facility from the PN drawing file, Can be extracted.

At this time, the intelligent diagram is represented by a single line for minimizing the capacity, and a unique code including information on the plant facility can be given to the single line.

At this time, the unique code may include information on at least any one of a size, a length, a specification, a location, and a installation time of the plant facility.

At this time, the generating unit may generate an intelligent diagram composed of a plurality of planes that overlap a plurality of planes formed for each plant facility.

At this time, the control unit may control the user to output only the desired plant facility by activating or deactivating a part of the plurality of planes.

In this case, the control unit may include a search unit for searching the plant facility information based on the unique code.

In this case, the control unit may include a calculation unit that calculates at least one of a length, an area, and a volume of the plant facility designated by the user based on the control command.

At this time, the control unit may control to output a part of the intelligent drawing as 3D or actual photograph based on the control command.

In this case, the control unit may include a tag recognizing unit that recognizes the tag of the plant facility to which the tag is attached and detects plant facility information corresponding to the tag.

At this time, the tag recognizing unit can register information on the plant facility to which the tag is attached in the DB storing the information about the plant facility.

According to another aspect of the present invention, there is provided an intelligent drawing control method comprising: receiving a control command and a plurality of different drawing files from a user; Generating an intelligent drawing including a plurality of plant facility information generated by extracting and collecting information, and controlling to detect and output plant facility information corresponding to the control command among the plurality of plant facility information .

At this time, the plurality of different drawing files may be PNID, PIPING PLAN, and ISO.

In this case, the generating step may include extracting information on the plant facility from the PNID drawing file, extracting information on the location and distance of the plant facility from the PIPING PLAN drawing file, The stereoscopic information can be extracted.

At this time, the intelligent diagram is represented by a single line for minimizing the capacity, and a unique code including information on the plant facility can be given to the single line.

At this time, the unique code may include information on at least any one of a size, a length, a specification, a location, and a installation time of the plant facility.

At this time, the creating step may generate an intelligent figure composed of a plurality of planes overlapping a plurality of planes formed for each plant facility.

At this time, the controlling step may control the user to output only the desired plant facility by activating or deactivating a part of the plurality of planes.

At this time, the controlling step may include retrieving the plant facility information based on the unique code.

At this time, the controlling step may include calculating at least one of a length, an area, and a volume of the plant facility designated by the user based on the control command.

At this time, the controlling step may control to output a part of the intelligent drawing as 3D or actual photograph based on the control command.

In this case, the controlling step may include a tag recognizing step of recognizing the tag of the plant facility to which the tag is attached, and detecting the plant facility information corresponding to the tag.

At this time, the tag recognizing step may register information on the plant facility to which the tag is attached in the DB storing the information about the plant facility.

According to the present invention, an intelligent drawing including a plurality of plant facility information can be generated by extracting and collecting only information necessary for plant operation among a plurality of drawing files.

In addition, according to the present invention, in constructing a plurality of facilities existing in a plant, a unique code including information on a plant facility is provided, and 3D is implemented by a single line, thereby reducing the memory capacity used in the drawings .

Further, according to the present invention, a plurality of planes for overlapping a plurality of planes formed for each plant facility are implemented, so that the user can accurately recognize a desired plant facility among the overlapped plant equipments.

According to the present invention, the plant facility information corresponding to the tag can be detected by recognizing the tag of the plant facility to which the tag is attached, and the information about the plant facility detected in the DB storing the information about the plant facility can be registered .

1 is a block diagram of an intelligent drawing control apparatus according to the present invention.
FIG. 2 is a view showing an embodiment of the control unit 130 shown in FIG.
3 is a view showing an output screen of the intelligent drawing generated by the generation unit 120 of the intelligent drawing control apparatus according to the present invention.
4 is a diagram showing an embodiment of an intelligent drawing control apparatus according to the present invention.
5 to 7 are views for explaining a plurality of planes of the intelligent diagram generated by the generation unit 120 of the intelligent diagram control apparatus according to the present invention.
8 is a flowchart of an intelligent drawing control method according to the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Hereinafter, a repeated description, a known function that may obscure the gist of the present invention, and a detailed description of the configuration will be omitted.

Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art.

Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

1 is a block diagram of an intelligent drawing control apparatus according to the present invention. FIG. 2 is a view showing an embodiment of the control unit 130 shown in FIG. 3 is a view showing an output screen of the intelligent drawing generated by the generation unit 120 of the intelligent drawing control apparatus according to the present invention.

Referring to FIG. 1, an intelligent drawing control apparatus 100 according to the present invention includes an input unit 110 for receiving a control command and a plurality of different drawing files from a user, A generation unit (120) for generating an intelligent diagram including a plurality of plant facility information generated by extracting and collecting information necessary for operation, and a plant facility information corresponding to the control command among the plurality of plant facility information And a control unit 130 for detecting and outputting the detected signal.

The control unit 130 may further include an output unit 140 for outputting plant facility information corresponding to the control command.

The output unit 140 is an output device capable of outputting the intelligent diagram, and typically means a display device.

In addition, it may include a DB (not shown) in which information on plant facilities is stored.

The input unit 10 receives a control command and a plurality of different drawing files from a user.

Here, the control command means a command from the user for driving the intelligent drawing control apparatus 100 according to the present invention.

The input unit 110 may be an input device such as a mouse or a keyboard, or may be a touch recognition method through a touch on the display.

The meaning of the plurality of different drawing files means a drawing used in a plant, which means that the types of files are different.

For example, the drawings used in the plant may be PNID (Piping And Instrumentation Drawing), PIPING PLAN, and ISO.

Specifically, the input unit 110 receives the control command of the user, and downloads a plurality of different drawing files from an external server or receives the drawing files from a memory device such as a USB.

The generating unit 120 generates an intelligent drawing including a plurality of plant facility information generated by extracting information necessary for plant operation among the information included in each of the plurality of different files, do.

Here, the information necessary for plant operation may be a valve, an instrument, a device, a facility, an inter-lock relation, a location where each device is installed, a distance within the plant, and a three-dimensional drawing .

The information necessary for the plant operation described above exists in the plurality of different drawing files.

Accordingly, a plurality of pieces of plant facility information can be generated by extracting and collecting information necessary for the plant operation from the plurality of different drawing files.

That is, the generating unit 120 performs a function of generating an intelligent drawing, which is one drawing including a plurality of pieces of plant equipment information.

The intelligent drawing is generated by extracting only the advantages of the PNID, the PIPING PLAN, and the ISO drawing file.

Specifically, information on the plant facility is extracted from the PNID drawing file, information on the location and distance of the plant facility is extracted from the PIPING PLAN drawing file, and the three-dimensional information of the plant facility is extracted from the ISO drawing file .

The intelligent drawings generated by extracting only the advantages of the PNID, PIPING PLAN, and ISO drawing files are drawings composed of a single 3D or 2.5D based on actual distances and locations based on piping and facilities.

In addition, the intelligent drawing may be configured as 3D or 2.5D, and may be expressed by a single line in consideration of a large memory capacity.

The disconnection may be provided with a unique code including information on the plant facility.

At this time, the unique code may include information on at least any one of a size, a length, a specification, a location, and a installation time of the plant facility.

In addition, the unique code may include fluid direction, pressure, capacity, temperature, amount of plant equipment, etc., and may include a tolerance value indicating the elasticity of the pipe according to the temperature of the fluid.

That is, it is possible to recognize general information of the plant facility through a unique code.

Referring to FIG. 3, an output screen 200 of the intelligent drawing generated by the generating unit 120 can be viewed.

At this time, inherent codes 210, 220, 230, 240 and 250 are given to the output screen 200 of the intelligent diagram.

For example, looking at the unique code 210, '1G-LNG-0001-12' is output. The first '1' in the front indicates a serial number of a plurality of planes and will be described later.

The 'G' after the serial number of the plurality of planes means the color of the pipe or the facility. The colors may be RED (R), YELLOW (Y), BLUE (B), and the like. For example, 'G' is a green color, which means GREEN.

Accordingly, when the user views the output screen 200 of the intelligent drawing, it becomes possible to easily recognize a specific pipe or facility by the color of the single line through the information of the unique code among the plurality of pipes or facilities.

Also, 'LNG' among the unique codes means information about the kind of fluid. Types of fluids may include fire water (FW), natural gas (NG), nitrogen (N), and the like. '0001' of the unique code means the type of facility. The types of equipment may include pipe type or valve. For example, '0001' means pipe.

And, '12' at the end of the unique code means the diameter of the pipe. The diameter information may be ground data for calculating the volume or the fluid capacity in the calculating unit 132, which will be described later.

Also, when looking at the unique code 250, 'P-306Q' is described. This means one plant in the plant. For example, it can be a 'generator'. Information on the unique code 250 is stored in the DB described above.

The code details of the inherent code can be changed according to the setting of the user.

In addition, the user can set an object displayed by the inherent code to be enlarged or darkened by clicking a unique code existing on the output screen 200 of the intelligent drawing or bringing the mouse close to the intelligent diagram.

The control unit 130 performs control to detect and output plant facility information corresponding to the control command among the plurality of plant facility information.

Referring to FIG. 3, the control unit 130 may include a search unit 131 for searching the plant facility information based on the unique code.

The control unit 130 may further include a calculation unit 132 for calculating at least one of a length, an area, and a volume of the plant facility designated by the user based on the control command.

The tag recognition unit 133 may recognize the tag of the plant facility to which the tag is attached and detect the plant facility information corresponding to the tag.

4 is a diagram showing an embodiment of an intelligent drawing control apparatus according to the present invention.

Referring to FIG. 4, the controller 130 detects plant equipment information corresponding to a control command by a user among the plurality of plant facility information.

For example, if the user issues a control command to search for a nitrogen pipe, only the information about the nitrogen pipe is output from the output screen 200 of the intelligent map.

In other words, all the information is outputted on the output screen of the intelligent drawing shown in FIG. 3, but in FIG. 4, only the information about the nitrogen pipe retrieved by the user is outputted, so that it is easy for the user to confirm the nitrogen pipe.

In addition, the controller 130 may control the information about the nitrogen pipe to be output as 3D or actual photographs.

Therefore, it is possible to output only a specific region or a specific facility as actual photographs according to a control command of a user, while minimizing the capacity through drawings represented by a single line.

The search unit 131 searches for the plant facility information based on the unique code.

That is, when the user inputs the unique code, the plant facility information corresponding to the unique code is searched.

Specifically, since there is a limitation in storing all the information of the plant facility in the unique code, the search is performed through the unique code to search all information of the plant facility corresponding to the unique code.

For example, if the installation code of the plant facility is assigned to the unique code, the user can search for the plant facility according to the installation year.

Therefore, there is an advantage that it can be advantageously utilized in the replacement and management of plant facilities.

The calculating unit 132 calculates at least one of the length, area, and volume of the plant facility designated by the user based on the control command.

Since there is a limit to storing all the information of the plant facility in the unique code, at least one of the length, area, and volume of the plant facility corresponding to the user's control command is calculated.

For example, the total volume of the LNG piping can not be confirmed by the inherent code, but it is possible to calculate information on the total volume of the LNG piping based on the diameter of the unique code or the DB and the length of the piping.

Therefore, there is an advantage that the user can calculate desired information using existing data without depending on the inherent code or DB.

The tag recognizing unit 133 recognizes the tag of the plant facility to which the tag is attached, and detects the plant facility information corresponding to the tag.

In addition, the tag recognizing unit 133 may register information on a plant facility to which the tag is attached in a DB storing information on the plant facility.

The tag is a concept including an electronic tag and an NFC (Near Field Communication).

Here, the NFC is a radio frequency identification (RFID) technology, which means a non-contact type short range wireless communication in which a mobile communication terminal or a PC can transmit data at a low power at a short distance using a frequency of 13.56 MHz.

The tag can be attached to a plant facility and the tag is recognized through the tag recognition unit 133. [

Peer to peer communication, RFID reading function, or card emulation function may be performed between the tag attached to the plant facility and the tag recognition unit 133.

Specifically, the tag recognition unit 133 recognizes the tag attached to the plant facility and can detect the information of the plant facility to which the tag is attached.

It is also possible to collectively detect facilities having the same type as the plant facility to which the tag is attached or facilities having the same installation year as the plant facility to which the tag is attached.

Also, if there is no information of the plant facility to which the tag is attached in the DB, the tag recognizing unit 133 may register the information of the plant facility to which the tag is attached in the DB.

5 to 7 are views for explaining a plurality of planes of the intelligent diagram generated by the generation unit 120 of the intelligent diagram control apparatus according to the present invention.

Referring to FIG. 5, it can be seen that the drawing 300 is divided into tiles to make it difficult to grasp the piping configuration as a whole. Such conventional technology has difficulty in grasping the overall piping configuration, and is difficult to modify the drawings.

Specifically, it is difficult to grasp the piping configuration because various piping such as water piping, gas piping, and communication pipeline are shown at a time in one drawing.

Referring to FIG. 6, there are a plurality of planes 310, 320, 330, and 340 formed for each plant facility. For example, assume that 310 is water pipe, 320 is gas pipe, 330 is communication line, and 340 is electric wire.

Referring to FIG. 7, a plurality of planes 400 overlapping a plurality of planes formed by plant facilities can be identified. And is a plurality of planes that overlap the 310 and 320.

As described above, if the plurality of planes formed by overlapping a plurality of planes formed by each plant facility are constructed as a plurality of planes, it is easy to grasp the overall piping configuration and facilitate the modification and management of the drawings.

In addition, the control unit 130 may control the user to output only the desired plant facility by activating or deactivating a part of the plurality of planes.

The plurality of planes 400 indicate that only the water pipe 310 and the gas pipe 320 are activated.

In this case, if it is necessary to modify the water pipe 310, it is advantageous that only the drawings for the water pipe can be modified without requiring the whole drawing to be modified.

8 is a flowchart of an intelligent drawing control method according to the present invention.

Referring to FIG. 8, an intelligent drawing control method according to the present invention includes receiving (S10) control commands and a plurality of different drawing files from a user, A step (S20) of generating an intelligent drawing including a plurality of plant facility information generated by extracting and collecting information, and a step of detecting and outputting plant facility information corresponding to the control command among the plurality of plant facility information (S30).

 The method may further include the step (S40) of outputting plant facility information corresponding to the control command detected in the controlling step S30.

At this time, the plurality of different drawing files may be PNID, PIPING PLAN, and ISO.

At this time, the creating step (S20) extracts information on the plant facility from the PNID drawing file, extracts information on the location and distance of the plant facility from the drawing plan drawing file, The three-dimensional information of the plant facility can be extracted.

At this time, the intelligent diagram is represented by a single line for minimizing the capacity, and a unique code including information on the plant facility can be given to the single line.

At this time, the unique code may include information on at least any one of a size, a length, a specification, a location, and a installation time of the plant facility.

At this time, the generating step (S20) may generate an intelligent figure composed of a plurality of planes that overlap a plurality of planes formed for each plant facility.

At this time, the controlling step S30 may control the user to output only the desired plant facility by activating or deactivating a part of the plurality of planes.

At this time, the controlling step S30 may include retrieving the plant facility information based on the unique code.

At this time, the controlling step S30 may include calculating at least one of the length, area, and volume of the plant facility designated by the user based on the control command.

At this time, the controlling step S30 may control to output a part of the intelligent drawing as 3D or actual photograph based on the control command.

In this case, the controlling step S30 may include a tag recognizing step of recognizing the tag of the plant facility to which the tag is attached, and detecting the plant facility information corresponding to the tag.

At this time, the tag recognizing step may register information on the plant facility to which the tag is attached in the DB storing the information about the plant facility.

As described above, according to the intelligent drawing control apparatus and method of the present invention, the configuration and method of the embodiments described above are not limitedly applied. All or some of them may be selectively combined.

100: Intelligent drawing control device
110: input unit 120:
130: control unit 140: output unit
131: Search unit 132:
133: tag recognition unit 200: output screen of intelligent drawing
210,220,230,240,250: Unique code

Claims (24)

An input unit for receiving a control command and a plurality of different drawing files from a user;
A generating unit for generating an intelligent diagram including a plurality of plant facility information generated by extracting and collecting information necessary for plant operation among information contained in each of the plurality of different files; And
And a controller for detecting and outputting plant facility information corresponding to the control command among the plurality of plant facility information,
The intelligent diagram is represented by a single line for minimizing the capacity, a unique code including information on the plant facility is assigned to the single line,
Wherein the generation unit comprises:
Forming a plurality of planes for each plant facility based on the distance and position between plant equipments using the plurality of plant equipments information, generating the intelligent diagram composed of a plurality of planes overlapping the plurality of planes formed,
Wherein,
By activating or deactivating a part of the plurality of planes, only the plurality of activated planes overlap to control the user to output only the desired plant facility,
Wherein the control unit includes a search unit for searching for the plant facility information based on the unique code, wherein the search unit searches through the unique code to search for integrated information of the plant facility corresponding to the unique code Wherein the intelligent drawing control device comprises: The method according to claim 1,
Wherein the plurality of drawing files, which are different from each other,
PNID, PIPING PLAN, and ISO. The method of claim 2,
Wherein the generation unit comprises:
Extracting information on the plant facility from the PNID,
Extracting information on the position and distance of the plant facility from the piping plan,
And extracts the stereoscopic information of the plant facility from the ISO. delete The method according to claim 1,
The unique code includes:
And information on at least any one of a size, a length, a specification, a position, and an installation time of the plant facility. delete delete delete The method according to claim 1,
Wherein,
And a calculating unit for calculating at least one of a length, an area and a volume of the plant facility designated by the user based on the control command. The method according to claim 1,
Wherein,
Wherein the controller controls to output, based on the control command, a part of the intelligent drawing as 3D or actual photograph. The method according to claim 1,
Wherein,
And a tag recognizing unit for recognizing the tag of the plant facility to which the tag is attached and detecting the plant facility information corresponding to the tag. The method of claim 11,
The tag recognizing unit,
Wherein the information about the plant facility to which the tag is attached is registered in a DB storing information on the plant facility. Receiving a control command and a plurality of different drawing files from a user;
Generating an intelligent drawing including a plurality of plant facility information generated by extracting and collecting information necessary for plant operation among information included in each of the plurality of different files; And
And controlling to output and output plant facility information corresponding to the control command among the plurality of plant facility information,
Wherein the intelligent diagram is represented by a single line for minimizing capacity, wherein the single line is provided with a unique code including information about the plant facility,
Wherein the generating comprises:
Forming a plurality of planes for each plant facility based on a distance and a position between plant equipments using the plurality of plant equipments information, generating the intelligent diagram composed of a plurality of planes overlapping a plurality of formed planes,
Wherein the controlling comprises:
And activating or deactivating a part of the plurality of planes so that only the plurality of activated planes overlap to control the output of only the user's desired plant facility,
Wherein the step of controlling includes searching for plant facility information based on the unique code, wherein the step of searching for the plant facility information is performed by searching through the unique code, And the integrated information of the facility is retrieved. 14. The method of claim 13,
Wherein the plurality of drawing files, which are different from each other,
PNID, PIPING PLAN, and ISO. 15. The method of claim 14,
Wherein the generating comprises:
Extracts information on the plant facility from the PNID drawing file,
Extracting information on the position and distance of the plant facility from the piping plan drawing file,
And extracting stereoscopic information of the plant facility from the ISO drawing file. delete 14. The method of claim 13,
The unique code includes:
And information on at least any one of a size, a length, a specification, a position, and an installation time of the plant facility. delete delete delete 14. The method of claim 13,
Wherein the controlling comprises:
And calculating at least one of a length, an area, and a volume of the plant facility designated by the user based on the control command. 14. The method of claim 13,
Wherein the controlling comprises:
And controlling to output, based on the control command, a part of the intelligent drawing as 3D or actual photograph. 14. The method of claim 13,
Wherein the controlling comprises:
And a tag recognizing step of recognizing the tag of the plant facility to which the tag is attached and detecting the plant facility information corresponding to the tag. 24. The method of claim 23,
The tag recognizing step includes:
Wherein the information about the plant facility to which the tag is attached is registered in a database storing information on the plant facility.

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