KR101521102B1 - Auto-spraying method for disinfection of seperable manufacture module - Google Patents

Abstract

The present invention relates to a spraying automation system for preventing a detachable facility module and a spraying automation method using the same. The present invention is characterized in that an automatic spraying server is divided into a fourth level unit level (Level4), a third level unit level (Level3), a second level unit level (Level2) and a first level unit level (Level1) A first step of generating a first sequential spraying sequence based on tag information attached to a predetermined point in each of the first detachable facility module or the second detachable facility module; (Level4, Level3, Level2, and Level1) based on the tag information of each component constituting the fourth level unit level (Level4) to the first level unit level (Level1) A second step of generating a second sequential spraying sequence from the inside to the outside; And the automated spraying server is configured to send the first level unit from the fourth level unit level (Level 4) to the first level unit (Level 4) according to the first sequential spraying sequence for the tagged air gun spray, the tagged power gun spray, A third step of controlling automatic execution according to each of the second sequential spraying sequences for each of the level unit stages (Level4, Level3, Level2, and Level1) in the sequential spraying step (Level1); . This systematically performs spraying for systematic disinfection of the separated facilities so as to be able to be loaded on the ship, thereby maximizing the residual amount of the spraying solution.

Description

[0001] The present invention relates to an automatic spraying method for disinfection facility module disinfection,

The present invention relates to a spraying automation system for dissolving a detachable facility module and a spraying automation method using the same. More particularly, the present invention relates to a spraying automation system for spraying, To a spraying automation system for dispersing a facility module to maximize the residual amount of the spraying solution, and a spraying automation method using the spraying automation system.

There has been a problem in introducing potentially invasive species from the origin to the destination in the process of the ship arriving at the destination or preparing to load the cargo. That is, introducing hundreds of marine exotic species into a non-native environment leads to an ecological imbalance of environmental pollution and uncertain damage estimated at billions of dollars.

Especially, when such foreign inflows are introduced into a remote island or a place where human traces do not reach much, it causes problems such as destruction of ecosystem. However, there is a case where a facility such as a factory is necessary even in a place where the traces of such a remote island or a person are not needed by necessity. In order to do this, a separate type facility module is shipped and assembled at a destination.

Accordingly, there is a need in the art to develop a technique for preventing the introduction of foreign inflowing paper to a destination through a spraying process for preventing discrete facility modules.

[Related Technical Literature]

Sterilizing Apparatus for Ship Ballast Water Using Electrolysis (Patent Application No. 10-2005-0085605)

SUMMARY OF THE INVENTION The present invention has been accomplished in order to solve the above problems, and it is an object of the present invention to provide a system for separating equipment for maximizing the residual amount of a spraying solution by systematically performing spraying for systematic disinfection of equipment, And a spraying automation method using the spraying automation system.

In addition, the present invention provides a spraying automation system for dispensing a detachable facility module for minimizing the influence on a lower layer during spraying from upper layer to lower layer for separate detachment facilities separated into a plurality of levels, and a spraying automation method .

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, an automatic spreading automation system for avoiding a detachable facility module according to an exemplary embodiment of the present invention is characterized in that the automatic spreading server includes a fourth level unit level (Level 4), a third level unit level Based on the tag information attached to each of the first detachable facility module or the second detachable facility module that is divided into a first level unit level (Level 3), a second level unit level (Level 2) and a first level unit level (Level 1) A first step of generating a sequential spraying sequence; (Level4, Level3, Level2, and Level1) based on the tag information of each component constituting the fourth level unit level (Level4) to the first level unit level (Level1) A second step of generating a second sequential spraying sequence from the inside to the outside; And the automated spraying server is configured to send the first level unit from the fourth level unit level (Level 4) to the first level unit (Level 4) according to the first sequential spraying sequence for the tagged air gun spray, the tagged power gun spray, A third step of controlling automatic execution according to each of the second sequential spraying sequences for each of the level unit stages (Level4, Level3, Level2, and Level1) in the sequential spraying step (Level1); .

In addition, a spraying automation method using a spraying automation system for dissolving a separate type facility module according to another embodiment of the present invention is characterized in that the automatic spraying server performs a data control session between the second step and the third step (Level4, Level3, Level2, and Level1) by the tag recognition air gun spray capable of communicating with each other through the level sensor unit (Level4, Level3, Level2 and Level1) And an update step of collecting tag information about the access prohibited area and reflecting the generated second sequential spreading sequence to update the tag sequence information; .

In another embodiment of the present invention, there is provided a spraying automation method using a spraying automation system for dissolving a separate type facility module, wherein in the third step, 1 camera, a second camera of the tag recognition power gun spray, a third camera of the tag recognition air spray, and performing automatic inspection for spraying according to object recognition; .

Further, in the spraying automation method using the spraying automation system for dissolving the separate type facility module according to another embodiment of the present invention, in the second step, When generating each second sequential spraying sequence from the inside to the outside for Level 3, Level 2 and Level 1, two-dimensional coordinate setting is performed to calculate the components at a short distance centered on the center point, It is desirable to utilize the distance between the three-dimensional coordinates of the center of gravity between the components.

Further, in the spraying automation method using the spraying automation system for dissolving the separate type facility module according to another embodiment of the present invention, in the third step, the automatic spraying server is installed in the uppermost Recognizing the tag-recognized air gun spray from the inside to the outside according to a second sequential sequence generated for the upper level pipe and platform (High level Pipe & Platform) which is the fourth level unit level (Level 4) A third step of performing automatic control by RFID automatic recognition of the RFID system to the outside of the pipe of the upper level pipe corresponding to the component by one of the gun spray and the tag recognition air spray; And the automated spraying server is operative to apply a first camera of the tag-recognition air gun spray, a second camera of the tag-recognition power gun spray, and a second camera of the tag recognition air 3-2) receiving spraying process photographed by one of the third cameras of the spray and performing a spraying inspection on a fourth level unit stage (Level 4) of the first detachable installation module; .

Further, in the spraying automation method using the spraying automation system for dissolving the separate type facility module according to another embodiment of the present invention, after the step 3-2, The tag recognition power gun spray from the inside to the outside in accordance with the second sequential sequence generated for the intermediate level platforms (Intermediate Platforms) A third step (3) of performing automatic control through tag automatic recognition of an underneath H-beam and a floor of the H-beam corresponding to the component by one of the spraying and the spraying; And the automated spraying server transmits spraying process shooting data photographed by one of the first camera, the second camera and the third camera to the third level unit stage (Level 4) of the first separate type facility module (Step 4) of performing a spraying inspection on a third level unit stage (Level 4) of the first removable facility module; Is further preferably performed.

In addition, the spraying automation method using the spraying automation system for dissolving the separate type facility module according to another embodiment of the present invention is characterized in that after the step 3-4, The tag-aware air gun spray from the inside to the outside, the tag-recognized power gun spray and the tag-recognized power gun spray from the second level unit stage (Level 4) and the second sequential sequence generated for the lower level platforms A second level grating corresponding to a component by one of the tag recognition air sprays, an under the vessel on level 2, a surface on the vessel, A third step of automatically performing automatic control of the RFID tag based on automatic recognition of the RFID tag to the top of the module; And the automated spraying server transmits spraying process shooting data photographed by one of the first camera, the second camera and the third camera to the second level unit stage (Level4) of the first separate type facility module And performing a spraying inspection on a second level unit stage (Level 4) of the first removable facility module; Is further preferably performed.

In addition, in the spraying automation method using the spraying automation system for dissolving the separate type facility module according to another embodiment of the present invention, after the step 3-6, The tag-aware air gun spray from the inside to the outside, the tag-recognized power gun spray and the tag (s) from the inside to the outside in accordance with a second sequential sequence generated for the bottom and access vessels, Automatic control through RFID automatic tag recognition of underneath level 1, accessways, and fire extinguisher box corresponding to a component by one of recognition air spray is performed Step 3-7; And the automated spraying server sends spraying process shooting data photographed by one of the first camera, the second camera and the third camera to the first level unit stage (Level 4) of the first separate type facility module And performing a spraying inspection on a first level unit stage (Level 4) of the first removable facility module; Is further preferably performed.

In another aspect of the present invention, there is provided a method for automating spraying using a spraying automation system for dissolving a separate type facility module, wherein in the updating step, the automatic spraying server performs the hand spraying and hand draining , The items set as the hot spot and the forbidden area requiring the operation of the first removable facility module are the cherry picker operation at the third level unit level (Level 3) of the first removable facility module, the top of pipe, It is preferably a spraying process associated with the outside of the pipe.

According to another aspect of the present invention, there is provided a spraying automation method using a spraying automation system for dissolving a separate type facility module, wherein in the updating step, the automated spraying server includes a portable spray It is preferable to notify the mobile terminal of the operator so as to perform the operation manually by the operator having the mobile terminal.

According to another aspect of the present invention, there is provided a spraying automation method using a spraying automation system for dissolving a separate type facility module, wherein in the third step, the tag recognition air gun spray, the tag recognition power gun spray, Preferably, the solution for spray used in the tag-recognition air spray comprises 5% by weight of Bifenthrin per liter.

In order to achieve the above object, a spraying automation system for avoiding a separate type facility module according to an embodiment of the present invention includes a fourth level unit level (Level 4), a third level unit level (Level 3) A first sequential spraying sequence based on the tag information attached to a predetermined point in each of the first detachable facility module or the second detachable facility module divided into a level unit level (Level 2) and a first level unit level (Level 1) (Level4, Level3, Level2, and Level1) based on the tag information for each component constituting the fourth level unit level (Level4) to the first level unit level (Level1) A process automatic control module for generating a second sequential spraying sequence to the second sequential spraying sequence; (Level4) to the first level unit stage (Level1) in order according to the first sequential spraying sequence for the tag recognition air gun spray, the tag recognition power gun spray and the tag recognition air spray An automatic control module for controlling automatic execution according to each of the second sequential spraying sequences for each level unit level (Level4, Level3, Level2, and Level1) in performing spraying; .

In addition, a spraying automation system for disinfection of a separate facility module according to another embodiment of the present invention is characterized in that the tag recognition air gun spray capable of communicating through a data control session, the tag recognition power gun spray and the tag recognition air spray The tag information about the hot spot and the forbidden area corresponding to the area where the automation is not possible in each level unit level (Level4, Level3, Level2 and Level1) is collected and updated in the second sequential spreading sequence generated Sequence Complementary Module; .

According to another embodiment of the present invention, there is provided a spraying automation system for dispensing a separate facility module, wherein the automatic control module includes a first camera of the tag-recognized air gun spray, a second camera of the tag- And a third camera of the tag recognition air spray, and performs automatic inspection for spraying according to object recognition.

In the spraying automation system for avoiding the detachment type facility module according to another embodiment of the present invention, the process automatic control module may control the process unit from the inside to the outside of the level unit stages (Level4, Level3, Level2 and Level1) When generating each second sequential spraying sequence, a two-dimensional coordinate setting is performed to estimate a component located at a short distance centered on the center point, and among the components at the same distance, three-dimensional coordinates It is desirable to utilize the distance.

In addition, in the spraying automation system for avoiding the detachable facility module according to another embodiment of the present invention, the sequence supplementing module may include a setting module for setting a hot spot and a prohibited area requiring the hand spraying and hand drying, (3) level unit stage (Level 3) of the first detachment type facility module, a cherry picker operation, a top of pipe, and a spray of the outside of the pipe It is preferable to designate the inking process.

In addition, in the spraying automation system for avoiding the detachment type facility module according to another embodiment of the present invention, the sequence supplementing module may be configured to perform a manual operation of the portable sprayer having the fourth camera, It is preferable to notify the mobile terminal of the operator.

In addition, in the spraying automation system for preventing the detachable unit module according to another embodiment of the present invention, the solution for spray used for the tag recognition air gun spray, the tag recognition power gun spray, and the tag recognition air spray is , And 5% by weight of Bifenthrin per liter.

The spraying automation system and the spraying automation method for dissolving the separate type facility module according to the embodiment of the present invention systematically performs spraying for systematic disinfection of separated facilities so as to be shipped to a ship, Thereby providing an effect of maximizing the residual amount for the spraying solution.

In addition, according to another embodiment of the present invention, a spraying automation system for avoiding a separate type facility module and a process according to a spraying automation method using the same, Thereby providing an effect of minimizing the influence on the lower layer during spraying.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a first separate type facility module to be subjected to a spraying process by a spraying automation system for avoiding a separate type facility module according to an embodiment of the present invention. FIG.
2 is a view showing a second separate type facility module to be subjected to a spraying process by a spraying automation system for avoiding a separate type facility module according to another embodiment of the present invention.
3 shows a spraying automation system for dissolving a separate facility module according to an embodiment of the present invention.
FIG. 4 is a flowchart illustrating a process performed in common to a first detachable facility module and a second detachable facility module in a spraying automation method using a spraying automation system for avoiding a detached facility module according to an embodiment of the present invention.
5 is a flowchart illustrating a detailed spraying process applied to a first detachable unit module of a spraying automation method using a spraying automation system for avoiding a detachable unit module according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a detailed description of preferred embodiments of the present invention will be given with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In the present specification, when any one element 'transmits' data or signals to another element, the element can transmit the data or signal directly to the other element, and through at least one other element Data or signal can be transmitted to another component.

FIG. 1 is a view showing a first detachable facility module 1 to be subjected to a spraying process by a spraying automation system 100 (see FIG. 3) for detachment of a detached-type facility module according to an embodiment of the present invention.

1, the first detachable facility module 1 includes a first level unit stage (Level 1), a second level unit stage (Level 2), a third level unit stage (Level 3) and a fourth level unit (Level 4).

The first level unit stage (Level 1) corresponds to the bottom vessel and access roads, the second level unit stage (Level 2) corresponds to the vessels and low level platforms, the third level unit stage (Level 3) corresponds to the intermediate level platform, and the fourth level unit level (Level 4) corresponds to the high level pipe and the flat level (high level pipe & platform).

2 is a view showing a second separate type facility module 2 to be subjected to a spraying process by a spraying automation system 100 for detaching a separate type facility module according to another embodiment of the present invention. 2, the second detachable facility module 2 includes a first level unit stage (Level 1), a second level unit stage (Level 2), a third level unit stage (Level 3) and a fourth level unit (Level 4).

The first level unit stage (Level 1) corresponds to a floor level entryway, a structure, and a compressor (Bottom level), Structure, and Compressor, and the second level unit level (Level 2) Level pipelines, structures, and supports and vessels under the platform, Level 3 unit level (Level 3) corresponds to intermediate level platforms, structures, and supports and vessels (Intermediate Platform, Structure, Support & Vessel), and Level 4 unit (Cooler & Cooler Platform).

3 is a diagram showing a spraying automation system 100 for dissolving a separate facility module according to an embodiment of the present invention. 1 to 3, a spraying automation system 100 for detachable facility module sanitation includes a tag recognition air gun sprayer 10, a tag recognition power gun sprayer 20, a tag recognition air sprayer 30, A spraying server 40, an automated DB 50, and a portable sprayer 60. The automatic spreading server 40 includes a process automatic control module 41, a sequence supplementing module 42, and an automatic control module 43. Hereinafter, the spreading automation system 100 for preventing the detachable facility module will be described in detail with reference to the configuration of the automated spreading server 40. [ The module constituting the automated spreading server 40 may mean a functional and structural combination of hardware for carrying out the technical idea of the present invention and software for driving the hardware. For example, the module may mean a logical unit of a predetermined code and a hardware resource for executing the predetermined code, and it does not necessarily mean a physically connected code or a kind of hardware. Can be easily deduced to the average expert in the field of < / RTI >

In the present invention, the spraying solution used for the tag recognition air gun sprayer 10, the tag recognition power gun sprayer 20, the tag recognition air sprayer 30 and the portable sprayer 60 contains 5% by weight of bifenthrin per liter, And a control unit.

The process automatic control module 41 controls the fourth level unit level (Level 4), the third level unit level (Level 3) of the first detachable facility module 1 or the second detachable facility module 2 communicable through the data control session, Level unit stage (Level 2), and the first level unit stage (Level 1), the first sequential spreading sequence is generated based on the tag information attached to the predetermined fourth stage unit stage (Level 1) The first sequential spraying sequence information is stored in the automated DB 50 as a design process for the spraying process for the lowest level first level unit stage (Level 1) from the lowest level unit stage (Level 4). Also, in this specification, a DB may mean a functional and structural combination of software and hardware for storing information corresponding to each database. The DB may be implemented as at least one table, and may further include a separate DBMS (Database Management System) for searching, storing, and managing information stored in the database. Also, it can be implemented in various ways such as a linked-list, a tree, and a relational database, and includes all data storage media and data structures capable of storing information corresponding to a database.

The process automatic control module 41 sets each level unit level (Level4, Level3, Level2, and Level1) based on the tag information for each component constituting the fourth level unit level (Level4) to the first level unit level (Level1) A second sequential spreading sequence from the inside to the outside is generated and stored in the automated DB 50. In this case, when generating the second sequential spraying sequence from the inside to the outside, two-dimensional coordinate setting is performed to calculate the components at a short distance centered on the center point, and between the components at the same distance, It is desirable to utilize the distance between the three-dimensional coordinates. In addition, the second sequential spreading sequence is generated for each level unit stage and stored in the automated DB 50. At this time, since the fourth level unit level (Level 4) is the uppermost layer, water is dropped or volatilized at the time of water spraying, so that it is performed first, and the spraying sequence is performed from the inside to the outside. Since the third level unit level (Level 3) is the middle layer, the upper and lower influenced portions can occur, so that the influence of the upper portion can be minimized technically from the inside to the outside. Since the second level unit level (Level 2) is the bottom layer or vessel, it is included in the spraying process as a general feature of the vessel, and the operation is carried out from the inside to the outside so as to reduce the influence at the upper portion . Also, the first level unit level (Level 1) proceeds with the spreading operation considering that it is the last stage before the first separated type module 1 and the second separated type module 2 are shipped to the ship in the future.

The sequence supplement module 42 is automated at each level unit level (Level4, Level3, Level2 and Level1) by the tag recognition air gun sprayer 10, the tag recognition power gun sprayer 20 and the tag recognition air sprayer 30 The tag information for the hot spot and the forbidden area requiring hand spraying and hand dragging in the impossible area is collected and reflected in the second sequential spraying sequence to update the automatic DB 50. Here, the items set as the hot spot and the forbidden area requiring hand spraying and hand drying are the cherry picker operation at the third level unit level (Level 3) of the first removable facility module 1, A spraying process involving the top of pipe, outside of the pipe. In this case, the sequence supplementing module 42 may be provided with a function of notifying the mobile terminal of the operator to carry out the operation manually by the operator having the portable sprayer 60 having the fourth camera 61. [

The automatic control module 43 controls the fourth to level unit stage (Level 4) according to the first sequential spraying sequence for the tag recognition air gun sprayer 10, the tag recognition power gun sprayer 20 and the tag recognition air sprayer 30, (Level4, Level3, Level2, and Level1) in sequential order from the first level unit stage (Level1) to the first level unit stage (Level1), and controls the automatic performance according to the second sequential spraying sequence generated for each level unit stage The first camera 11 of the tag recognition air gun sprayer 10, the second camera 21 of the tag recognition power gun sprayer 20, and the third camera 31 of the tag recognition air sprayer 30, And performs automatic inspection according to object recognition.

FIG. 4 is a flow chart of a process performed commonly to the first and second detachable unit modules 2 and 3 of the spraying automation method using the spraying automation system for avoiding the detachable unit module according to the embodiment of the present invention. Fig. 1 to 4, the automation spraying server 40 is configured to perform the automatic leveling of the fourth level unit stage (Level 4), the third level unit stage (Level 4) of the first detachable facility module 1 or the second detachable facility module 2 The first sequential spreading sequence is generated on the basis of the tag information attached to the predetermined point in the first level unit stage (Level 3), the second level unit stage (Level 2), and the first level unit stage (Level 1) The first sequential spraying sequence information is stored in the automated DB 50 as a design process for the spraying process from the fourth level unit level (Level 4) to the lowermost first level unit level (Level 1).

After step S11, the automated spreading server 40 determines the level of each level unit (Level4, Level2) based on the tag information of each component constituting the fourth level unit level (Level4) to the first level unit level (Level1) Level 3, Level 2, and Level 1) are generated and stored in the automated DB 50 (S 12). In this case, when generating the second sequential spraying sequence from the inside to the outside, two-dimensional coordinate setting is performed to calculate the components at a short distance centered on the center point, and between the components at the same distance, It is desirable to utilize the distance between the three-dimensional coordinates.

After step S12, the automated spreading server 40 sends the tag recognition water spreading 10, the tag recognition air spreading 20 and the tag recognition wiper 30 communicable via the data control session, By collecting the tag information for the hot spot and the forbidden area requiring hand spraying and hand dragging in the areas where automation is not possible in the steps (Level4, Level3, Level2 and Level1) and reflecting them in the second sequential spraying sequence (S13 ), And updates the automatic DB 50. Here, the items set as the hot spot and the forbidden area requiring hand spraying and hand drying are the cherry picker operation at the third level unit level (Level 3) of the first removable facility module 1, A spraying process involving the top of pipe, outside of the pipe. In this case, the automation spraying server 40 may be provided with a function of notifying the mobile terminal of the operator to carry out the operation manually by the operator having the portable spray 60 having the fourth camera 61. [

After step S13, the automated spraying server 40 sends the tag recognition air gun spray 10, the tag recognition power gun spray 20, and the tag recognition air spray 30, (Level4, Level3, Level2, and Level1) in order from the fourth level unit level (Level4) to the first level unit level (Level1) The first camera 11 of the tag recognition air gun sprayer 10, the second camera 21 of the tag recognition power gun sprayer 20, the tag recognition air spray 30 (Step S14). [0031] The first camera 31 of the second camera 31 receives the photographed data and performs an automatic inspection according to the object recognition (S14).

FIG. 5 is a flowchart showing a detailed spraying process applied to the first detachable unit module 1 of the spraying automation method using the spraying automation system for avoiding the detachable unit module according to the embodiment of the present invention. 1 to 5, the automated spreading server 40 includes a high level pipe and platform (Level 4), which is a fourth level unit level (Level 4) constituting the uppermost part of the first detachable facility module 1, (Level4) by one of the tag recognition air gun spray 10, the tag recognition power gun spray 20 and the tag recognition air spray 30 from the inside to the outside in accordance with the second sequential sequence for the tag recognition air spray 30 (Step S21). In this case, the automatic leveling process is performed by automatically recognizing the RFID tag with respect to the outside of the high-level pipe corresponding to the constituent elements constituting the high-level pipe.

After step S21, the automated spraying server 40 determines whether the first camera 11 of the tag-recognized air gun sprayer 10, the second camera 11 of the tag-recognition power gun sprayer 20 2 camera 21 and the third camera 31 of the tag recognition air spray 30 and performs a spraying inspection on the fourth level unit level (Level 4) (S22).

After step S22, the automated spraying server 40 sends an intermediate level platform (Intermediate Platforms), which is the third level unit level (Level 3) of the first removable facility module 1, Of the H-beam corresponding to the components constituting the third level unit level (Level 3) by the tag recognition air gun sprayer 10, the tag recognition power gun sprayer 20 and the tag recognition air sprayer 30 The automatic spreading process is performed by performing the automatic control through RFID automatic tag recognition for the underneath H-beam and the floor (S23). In this case, it is preferable that the spraying process is performed by a residual spray method.

After step S23, the automated spraying server 40 determines whether the first camera 11 of the tag-recognized air gun spray 10, the second camera 11 of the tag-recognized power gun spray 20 2 camera 21 and the third camera 31 of the tag recognition air spray 30 and performs a spraying test on the third level unit level (Level 3) (S24).

After step S24, the automated spraying server 40 sends a second sequential sequence to the container, which is the second level unit level (Level2) of the first detachable facility module 1, and the lower level platforms (Level 3) by one of the tag recognition air gun spray 10, the tag recognition power gun spray 20 and the tag recognition air spray 30 from the inside to the outside (Level 2 grating), Under the vessel on level 2, Surface on the vessel, Top-of-the-module RFID So that the spraying process is performed (S25).

After step S25, the automated spraying server 40 determines whether the first camera 11 of the tag-recognized air gun spray 10, the second camera 11 of the tag-recognized power gun spray 20 2 camera unit 21 and the third camera 31 of the tag recognition air spray 30 to perform spraying inspection on the second level unit stage (Level 2) (S26).

After step S26, the automated spreading server 40 sends a first sequential sequence to the container bottom and accessways, which is the first level unit level (Level 1) of the first removable facility module 1, (Level 3) formed by one of the tag recognition air gun spray 10, the tag recognition power gun spray 20 and the tag recognition air spray 30 from the outside to the outside A sprinkling process is performed by performing automatic control through RFID automatic tag recognition of underneath level 1, accessways, and fire extinguisher box (S27).

After step S27, the automated spraying server 40 determines whether the first camera 11 of the tag-recognized air gun spray 10, the second camera 11 of the tag-recognized power gun spray 20 2 camera 21 and the third camera 31 of the tag recognition air spray 30 to perform spraying inspection on the first level unit stage (Level 1) (S28).

The present invention can also be embodied as computer-readable codes on a computer-readable recording medium. A computer-readable recording medium includes all kinds of recording apparatuses in which data that can be read by a computer system is stored.

Examples of the computer-readable recording medium include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device and the like, and also implemented in the form of a carrier wave (for example, transmission over the Internet) .

The computer readable recording medium may also be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner. And functional programs, codes, and code segments for implementing the present invention can be easily inferred by programmers skilled in the art to which the present invention pertains.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they have been used only in a general sense to easily describe the technical contents of the present invention and to facilitate understanding of the invention , And are not intended to limit the scope of the present invention. It is to be understood by those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Tag recognition air gun spray
11: First camera
20: Tag recognition power gun spray
21: Second camera
30: tag recognition air spray
31: Third camera
40: Automation Spraying Server
41: Process automatic control module
42: Sequence complementary module
43: Automatic control module
50: Automation DB
60: Portable spray
61: Fourth camera

Claims (18)

The automatic spreading server is divided into a first separated type (Level 1) divided into a fourth level unit level (Level 4), a third level unit level (Level 3), a second level unit level (Level 2) A first step of generating a first sequential spraying sequence on the basis of tag information attached to a predetermined point in each of the facility module or the second detachable facility module;
(Level4, Level3, Level2, and Level1) based on the tag information of each component constituting the fourth level unit level (Level4) to the first level unit level (Level1) A second step of generating a second sequential spraying sequence from the inside to the outside; And
The method of claim 1, wherein the automated spraying server is further configured to send the first level unit stage (Level 4) from the fourth level unit level (Level 4) to the tagged air gun spray, the tag recognition power gun spray and the tag recognition air spray according to the first sequential spraying sequence (Level1, Level2, and Level1), the third step of controlling automatic execution according to each of the second sequential spraying sequences; Lt; / RTI >
Characterized in that, between said second step and said third step, said automated spraying server is operable, via said data control session, with said tag-recognized air gun spray, said tag-recognized power gun spray and said tag- An update step of collecting tag information on a hot spot and a forbidden area corresponding to an area that is not automatable in the step (Level4, Level3, Level2, and Level1) and reflecting the collected tag information on the generated second sequential spreading sequence; Wherein the spraying automation system is adapted for use in a spraying automation system.
delete 2. The method of claim 1,
Wherein the automated spraying server receives shooting data by a first camera of the tag-recognized air gun spray, a second camera of the tag-recognized power gun spray, and a third camera of the tag-recognized air spray, Performing an automatic check on the data; Wherein the spraying automation system further comprises a control unit for controlling the spraying unit.
The method according to claim 1,
When the automation spraying server generates each second sequential spraying sequence from the inside to the outside for each level unit level (Level4, Level3, Level2, and Level1), the automatic spraying server calculates two-dimensional coordinates Wherein the distances between the three-dimensional coordinates of the center of gravity are utilized between the components at the same distance. 2. The spraying automation method according to claim 1,
4. The method of claim 3,
The automatic spraying server is configured to receive from the inside in accordance with a second sequential sequence generated for a high level pipe and a platform (High level Pipe & Platform) which is a fourth level unit level (Level 4) constituting the uppermost part of the first separated type facility module RFID tag automatic recognition for the outside of pipe of the upper level pipe corresponding to the component by one of the tag recognition air gun spray to the outside, the tag recognition power gun spray and the tag recognition air spray (3-1) for performing automatic control through the control unit And
Wherein the automated spraying server is operable to determine a first camera of the tag-recognized air gun spray, a second camera of the tag-recognized power gun spray, and a second camera of the tag- (3-2) of receiving spraying process photographed by one of the third cameras of the first removable facility module and performing a spraying inspection on a fourth level unit stage (Level4) of the first removable facility module; Wherein the spraying automation system is adapted for use in a spraying automation system.
[6] The method of claim 5,
Wherein the automated spraying server is configured to send the tag-recognized air gun spray from the inside to the outside in accordance with a second sequential sequence generated for intermediate platforms (Level 4) of a third level unit stage of the first removable facility module Automatic recognition of RFID tags for the underneath H-beam and floors of the H-beams corresponding to the components by the tag recognition power gun spray and the tag recognition air spray, A third step of allowing control to be performed; And
The automated spraying server receives spraying process image data photographed by one of the first camera, the second camera and the third camera with respect to a third level unit stage (Level 4) of the first separate type facility module A third step of performing a spraying inspection on a third level unit stage (Level 4) of the first removable facility module; Wherein the spraying automation system further comprises a control unit for controlling the spraying unit.
7. The method of claim 6,
Wherein the automated spraying server is operable to control the first and second detachable facility modules to move from the inside to the outside in accordance with a second sequential sequence generated for the vessel and the lower level platforms of the second level unit stage (Level 4) A second level grating corresponding to one of the tag recognition air gun spray, the tag recognition power gun spray and the tag recognition air spray, a second level grating corresponding to a component under the vessel on level 2, (step 3 - 5) to perform automatic control through RFID automatic tag recognition for the surface of the vessel and the top of the module of the low level module; And
The automatic spraying server receives spraying process photographing data taken by one of the first camera, the second camera and the third camera with respect to a second level unit stage (Level 4) of the first separate type facility module (3) performing a spraying inspection on a second level unit stage (Level 4) of the first removable facility module; Wherein the spraying automation system is adapted for use in a spraying automation system.
The method of claim 7, further comprising, after steps 3-6,
Wherein the automated spraying server is operable to receive the tag recognition from the inside to the outside according to a second sequential sequence generated for a bottom vessel and accessways of a first level unit stage (Level 4) An RFID tag for a first level lower (underneath level 1), accessways and a fire extinguisher box corresponding to components by one of the air gun spray, the tag recognition power gun spray and the tag recognition air spray, A third step of performing automatic control through tag automatic recognition of the method; And
Wherein the automated spraying server receives the spraying process photographed by one of the first camera, the second camera and the third camera with respect to a first level unit stage (Level 4) of the first separate type facility module (3) performing a spraying inspection on the first level unit stage (Level 4) of the first removable facility module; Wherein the spraying automation system is adapted for use in a spraying automation system.
The method according to claim 1,
The item set as the hot spot and the forbidden area requiring hand spraying and hand drying by the above-mentioned automatic spraying server is a cherry picker operation at the third level unit level (Level 3) of the first separate type facility module wherein the spraying process is a spraying process related to a spraying operation, a top of pipe, and an outside of the pipe.
The method of claim 9,
Wherein the automatic spraying server notifies the mobile terminal of the operator of the operation of the operator of the portable spray having the fourth camera by manual operation of the sprayer using the spraying automation system Method of automation.
The method according to claim 1, wherein, in the third step,
Characterized in that the solution for spray used in the tag-recognition air gun spray, the tag-recognition power gun spray and the tag recognition air spray comprises 5% by weight of Bifenthrin per liter. Automated Spraying Method Using Automated System.
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