KR101033208B1 - Reactor O-ring Sealed Surface Automatic Inspection System - Google Patents

Abstract

The present invention relates to a nuclear reactor O-ring sealing surface automatic inspection device, which is composed of a manipulator (A) and the main control device (B) mounted on a manipulator that automatically moves a laser inspection device and an electron microscope to measure accurately. Analyze the size of the rejected defects by analyzing the size of the rejected defects, record the test results into a database to record the test results, and perform a more precise inspection than the visual inspections to prevent human inspection mistakes and corrosion of the reactor O-ring seal. In addition to being able to make a database of damage and damage status, the laser measurement technology is adopted in the precision measurement section, and the non-contact and remote control technology is applied to the high radiation section of the nuclear power plant to manage the history of the O-ring sealing surface measurement data. This enables preventive maintenance of reactor seal leaks in advance. Power is a useful invention with particular advantages that can improve operational efficiency and reliability of the plant.

Description

Automatic inspection apparatus for reactor O-ring mating surface in Nuclear Power Plant}

The present invention relates to a device for inspecting the reactor O-ring sealing surface, and more particularly, it is possible to precisely inspect the sealing surface between the reactor vessel and the reactor head and to prevent corrosion and leakage of the reactor seal by data on corrosion and damage status. The present invention relates to an automatic O-ring sealing surface inspection device for improving the operating efficiency and reliability of nuclear power plants.

No equipment has been developed for inspecting reactor flanges and O-ring grooves in domestic nuclear power plants. Therefore, in the related art, after stopping the operation of the reactor, the O-ring contact surface was visually inspected by the operator using an instrument.

This visual inspection is to visually inspect the surface of the reactor vessel seal, the reactor head o-ring (before and after removal) and the reactor head o-ring groove seal with a dial gauge and visual inspection. Defects such as debris deposition, deformation, and burning were recorded and cameras were recorded.

The present invention has been invented to solve various defects and problems caused by visual inspection of the conventional O-ring sealing surface in view of the above situation, and an object thereof is a manipulator for automatically moving a laser inspection device and an electron microscope. It is to provide the reactor O-ring sealing surface automatic inspection device that analyzes the size of the failing defect by precisely measuring and analyzing it by mounting on the model, modeling the geometric shape of the failing size, and recording the test result to make the database.

Another object of the present invention is to provide a reactor O-ring sealing surface automatic inspection device that can perform a more precise inspection than the visual inspection to prevent human inspection errors, and to database the corrosion and damage of the reactor O-ring seal.

Another object of the present invention is to apply the laser measurement technology to the precision measurement section, and to apply the non-contact, remote control technology to the high radiation section of the nuclear power plant, and through the history management of the O-ring sealing surface measurement data in advance, It is to provide a reactor O-ring sealing surface automatic inspection device that can prevent the maintenance of sealing leakage and improve the operation efficiency and reliability of nuclear power plant.

Reactor O-ring sealing surface automatic inspection device of the present invention for achieving the above object is a front and rear bogie (10, 10 ') having a wheel 11 for movement, and mounted on the bogie 10 to rotate the wheel 11 for movement. A driving motor 20 for driving, a mounting table 30 fixedly connected to an upper end of the vertical frames 31 and 31 'which are erected perpendicularly to the front and rear trolleys 10 and 10', and the mounting table 30 A digital electron microscope 40 fixed to the front lower surface, a camera 50 fixed to the rear lower surface of the mounting table 30, a laser scanner 60 fixed to the central lower surface of the mounting table 30, and A laser controller 70 fixed to the upper surface of the mounting table 30 to control the laser scanner 60 and a position controller 80 fixed to the upper surface of the mounting table 30 to control the movement position. A manipulator A made up; Control means (a) for controlling the reactor vessel O-ring sealing surface inspection device, image processing means (b) for processing and storing the observation image of the digital electron microscope 40 and the imaging image of the camera 50, and the reactor The container O-ring sealing surface inspection device comprises a main control device (B) consisting of a power supply means (c) for supplying a supply power.

The present invention is equipped with a laser inspection device and an electron microscope to automatically move the manipulator (Manipulator) to precisely measure and analyze the size of the reject defects by analyzing the size of the failure defects to model the geometric shape of the size and record the test results database (Data Base inspection and more precise inspection than the visual inspection to prevent human error, and to database the corrosion and damage of O-ring seals of the reactor. By applying remote control technology to the high radiation section of the nuclear power plant, it is possible to prevent and maintain the leakage of the reactor seal in advance through the history management of O-ring sealing surface measurement data, and improve the operating efficiency and reliability of the nuclear power plant. There is a particular advantage.

1 is a reactor vessel O-ring seal surface photo,
2 is a reactor head O-ring sealing surface photograph,
Figure 3 is a block diagram of the present invention reactor O-ring sealing surface automatic inspection device for inspecting the reactor vessel O-ring sealing surface,
4 is a perspective view of a manipulator according to one embodiment of the present invention for inspecting a reactor vessel O-ring sealing surface;
5 is a block diagram of an automatic reactor O-ring sealing surface inspection apparatus of the present invention for inspecting the reactor head O-ring sealing surface,
6 is a perspective view of a manipulator according to the present invention for inspecting the reactor head O-ring sealing surface.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the reactor O-ring sealing surface automatic inspection device of the present invention will be described in detail.

Figure 3 is a block diagram of a reactor automatic O-ring sealing surface of the present invention for inspecting the reactor vessel O-ring sealing surface, Figure 4 is a perspective view of the manipulator according to the present invention for inspecting the reactor vessel O-ring sealing surface, Figure 5 is a reactor head O-ring As a perspective view of a manipulator according to the present invention for inspecting the sealing surface, the reactor vessel O-ring sealing surface automatic inspection device of the present invention is mounted on the cart 10 and the front and rear bogies 10 and 10 'having a moving wheel 11 and the bogie 10. And a mounting motor 30 connected to the upper end of the driving motor 20 to rotate the wheel 11 for movement and the vertical frames 31 and 31 'which are vertically fixed to the front and rear trolleys 10 and 10'. And a digital electron microscope 40 fixed to the front lower surface of the mounting table 30, a camera 50 fixed to the rear lower surface of the mounting table 30, and a central lower surface of the mounting table 30. Laser scanner installed 60 and a laser controller 70 fixed to the upper surface of the mounting table 30 to control the laser scanner 60, and a position controller fixed to the upper surface of the mounting table 30 to control the movement position. A manipulator A consisting of 80; Control means (a) for controlling the reactor vessel O-ring sealing surface inspection device, image processing means (b) for processing and storing the observation image of the digital electron microscope 40 and the imaging image of the camera 50, and the reactor A main control device (B) comprising a power supply means (c) for supplying supply power to the container O-ring sealing surface inspection device.

Preferably, three cameras 50 are installed to monitor the operation of the manipulator A, and the manipulator A moves the manipulator A in addition to the drive motor 20 for moving the manipulator A. A motor for moving the laser scanner 60 in a direction crossing the direction, a motor for adjusting the measurement distance of the laser scanner 60 by moving the laser scanner 60 up and down, and a digital electron microscope 40 ) Zoom motor and focus motor are additionally installed.

The power supply means c of the main controller B is composed of a control computer, a video optical link, a frame grabber, an image distributor, a titler, and a VCR.

In addition, the image processing means (b) of the main control device (B) includes a CCTV monitor and an 8-channel DVD recorder.

And the reactor head O-ring sealing surface automatic inspection device of the present invention comprises a rail (R) installed on the reactor head O-ring sealing surface, front and rear bogies (10 ", 10") having a moving wheel (11 '), and the bogie ( A mounting table 20 'mounted and fixed to a 10 ", a drive motor 30' mounted to a lower surface of the mounting table 20 'and rotating the driving wheel 11', and the mounting table 20 ' Laser controller 40 'fixedly installed on the front upper surface of the front panel), a position controller 50' fixedly installed on the upper surface of the mounting table 20 'and controlling a movement position, and a center of the upper surface of the mounting table 20'. On the front end of the digital electron microscope 60 'fixedly mounted on the camera, the camera 70' fixedly mounted on the rear upper surface of the mounting table 20 ', the laser scanner 80', and the mounting table 20 '. A manipulator A 'consisting of a groove guide 90' fixedly mounted to a standing vertical frame 91 'and a reactor head O-ring mill; Control means (a ') for controlling the surface inspection device, image processing means (b') for processing and storing the observation image of the digital electron microscope (60 ') and the imaging image of the camera 70', and the reactor It consists of the main control apparatus B 'which consists of a power supply means c' which supplies a supply power to a head O-ring sealing surface inspection apparatus.

Preferably, three cameras 70 'are installed to monitor the operation of the manipulator A', and the manipulator A 'is provided in addition to the drive motor 30' for moving the manipulator A '. To adjust the measurement distance of the laser scanner 80 'by moving the laser scanner 80' up and down and a motor for moving the laser scanner 80 'in a direction crossing the moving direction of (A'). Motor, a zoom control motor and a focus control motor of the digital electron microscope 60 'are further provided.

The power supply means c 'of the main control device B' is composed of a control computer, a video optical link, a frame grabber, an image distributor, a titler, and a VCR.

In addition, the image processing means (b ') of the main control device (B') includes a CCTV monitor and an 8-channel DVD recorder.

Next, the operation of the present invention configured as described above will be described in detail.

3 and 4, the reactor reactor O-ring sealing surface automatic inspection device of the present invention drives the wheel 11 with the driving motor 20, and performs surface inspection with the non-contact laser scanner 60 at 20 mm from the O-ring sealing surface. The inspection position is based on the stud hole numbering (Number i ng).

In addition, in the reactor head O-ring sealing surface automatic inspection device of the present invention shown in FIGS. 5 and 6, a rail R is installed, and a wheel 11 ′ rotated by the driving motor 30 ′ is placed on the rail R. FIG. While rolling, the surface inspection is performed with the laser scanner 80 ', and the inspection position is based on the stud hole numbering.

The drive motors 11 and 11 'of the manipulator (A') enable position tracking using a servo motor equipped with an encoder, and the inspection device is installed in a remote control and various reactor environments. And handling is possible.

The laser sensors on the reactor vessel flange and head o-ring grooves are selected to be compatible with each other and are moved to the reactor vessel o-ring sealing surface by crane in the reactor operating floor.

The hardware and software of the manipulators (A, A '; Manipulator) are integrated and used, and the manipulator (A') manipulator for inspecting the reactor head seal surface is composed of two joints, and the radius is circumferentially depending on the radius of the applied unit. Will be controlled.

It is possible to adjust the width of the driving mechanism of the equipment for each power plant, to measure the O-ring surface while moving, the inspection accuracy is over 20μm (0.02mm), the moving speed is adjustable within the range of 1 ~ 10mm / s, and the normal inspection speed Is 1.5 to 2.5 mm / s adjustable.

In addition, the laser scanners 60 and 80 'and the digital electron microscopes 40 and 60' are movable at right angles (X-axis) in the direction of travel (Y-axis) to measure while moving between two O-ring sealing surfaces. .

While the present invention has been described as a preferred embodiment, the present invention is not limited thereto, and various modifications can be made without departing from the gist of the invention.

10, 10 ', 10 ": Front and rear bogies 11, 11': Wheels for movement
20: drive motor 20 ': mounting table
30: mounting table 30 ': drive motor
31, 31 ': Vertical frame 40: Digital electron microscope
40 ': laser controller 50: camera
50 ': position controller 60: laser scanner
60 ': Digital electron microscope 70: Laser controller
70 ': Camera 80: Position controller
80 ': laser scanner 90': groove guide
91 ': Vertical frame A, A': Manipulator
B, B ': main control device a, a': control means
b, b ': image processing means c, c': power supply means
R: Rail

Claims (10)

Front and rear trolleys 10 and 10 'having a wheel 11 for movement, a drive motor 20 mounted on the trolley 10 to drive the wheel 11 for rotation, and the front and rear trolleys 10 and 10'. Mounting vertically connected to the upper end of the vertical frame (31, 31 ') fixed to the vertical and fixed to the vertical, digital electron microscope (40) fixed to the front lower surface of the mounting (30) and the mounting ( The camera 50 is fixedly installed on the rear lower surface of the 30, the laser scanner 60 is fixedly installed on the center lower surface of the mounting table 30, and the laser scanner 60 is fixedly installed on the upper surface of the mounting table 30 A manipulator (A) comprising a laser controller (70) for controlling a position) and a position controller (80) fixedly mounted on an upper surface of the mounting table (30) to control a movement position; Control means (a) for controlling the reactor vessel O-ring sealing surface inspection device, image processing means (b) for processing and storing the observation image of the digital electron microscope 40 and the imaging image of the camera 50, and the reactor Reactor O-ring sealing surface automatic inspection device comprising a main control device (B) consisting of a power supply means (c) for supplying power to the container O-ring sealing surface inspection device to inspect the reactor vessel O-ring sealing surface. The reactor O-ring sealing surface automatic inspection apparatus according to claim 1, wherein three cameras (50) are provided to monitor the operation of the manipulator (A). The motor of claim 1, wherein the manipulator A includes a motor for moving the laser scanner 60 in a direction crossing the movement direction of the manipulator A, in addition to the driving motor 20 for moving the manipulator A. In addition, a motor for adjusting the measurement distance of the laser scanner 60 by moving the laser scanner 60 up and down, a zoom control motor and a focus control motor of the digital electron microscope 40 are further installed. Reactor O-ring sealing surface automatic inspection device. The power supply means (c) of the main control device (B) is composed of a control computer, a video optical link, a frame grabber, an image distributor, a titler, and a VCR. Reactor O-ring sealing surface automatic inspection device. The reactor O-ring sealing surface automatic inspection apparatus according to claim 1, wherein the image processing means (b) of the main control unit (B) includes a CCTV monitor and an 8-channel DVD recorder. Rail R provided on the reactor head O-ring sealing surface, front and rear trolleys 10 " and 10 " having movable wheels 11 ', and mounting bases 20' mounted and fixed to the trolley 10 " ), A drive motor 30 'mounted on a lower surface of the mounting table 20' and driving the wheel 11 'for rotation, and a laser controller 40 fixedly installed on a front upper surface of the mounting table 20'. '), A position controller 50' fixedly installed on the upper surface of the mounting table 20 'to control a moving position, and a digital electron microscope 60' fixedly installed at the center of the upper surface of the mounting table 20 '. And a camera 70 'fixedly installed on the rear upper surface of the mounting table 20' and a laser scanner 80 'and a vertical frame 91' which is erected at the front end of the mounting table 20 '. A manipulator A 'consisting of a groove guide 90', control means a 'for controlling the reactor head O-ring sealing surface inspection device, and the digital electronics. Image processing means (b ') for processing and storing the observation image of the microscope (60') and the image of the camera (70 '), and the power supply means for providing a supply power to the reactor head O-ring sealing surface inspection apparatus (c) Reactor O-ring sealing surface automatic inspection device comprising a main control device (B ') consisting of') to inspect the reactor head O-ring sealing surface. 7. The reactor O-ring sealing surface automatic inspection device according to claim 6, wherein three cameras (70 ') are provided to monitor the operation of the manipulator (A'). 7. The manipulator A 'is configured to move the laser scanner 80' in a direction crossing the movement direction of the manipulator A 'in addition to the driving motor 30' for moving the manipulator A '. A motor for moving, a motor for adjusting the measuring distance of the laser scanner 80 'by moving the laser scanner 80' up and down, a zoom adjusting motor and a focusing motor of the digital electron microscope 60 ' Reactor O-ring sealing surface automatic inspection device, characterized in that further installed. 7. The power supply means (c ') of the main control device (B') is composed of a control computer, a video optical link, a frame grabber, an image distributor, a titler, and a VCR. Reactor O-ring sealing surface automatic inspection device. 7. The reactor O-ring sealing surface automatic inspection apparatus according to claim 6, wherein the image processing means (b ') of the main control unit (B') includes a CCTV monitor and an 8-channel DVD recorder.

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