CN211348662U - Steam generator inspection device - Google Patents

Abstract

The utility model relates to a can be to whether have foreign matter to exist in the gap of heat pipe bundle etc. carry out the steam generator inspection device who inspects, provide a steam generator inspection device, include: a frame part mounted on the outer side of the steam generator through a hand hole of the steam generator; a rail guide part installed on the frame part in a manner that a part of the rail guide part protrudes into the steam generator through a hand hole; a rail part disposed inside the steam generator through the rail guide part; an inspection unit movably mounted on the rail unit and provided with an inspection camera; and a driving unit for driving the rail unit and the inspection unit.

Description

Steam generator inspection device

Technical Field

The present invention relates to a steam generator inspection device, and more particularly to a steam generator inspection device (inspection device) that can inspect whether or not foreign matter exists in a gap between heat pipe bundles.

Background

Generally, a nuclear power plant generates steam required for producing electricity using a steam turbine and a generator through a steam generator.

The steam generator is provided with a plurality of heat transfer pipes in a bundle (bundle) form, and the heat transfer pipes perform heat exchange between the class 1 system water including radiant energy and the class 2 system water for driving the turbine to rotate, thereby performing a function of separating the class 1 system water and the class 2 system water.

During the steam generation process of the steam generator, the class 1 system water heated in the process of passing through the atomic furnace flows through the interior of the heat conduction pipe of the steam generator along the pipeline, and the class 2 system water supplied to the exterior of the heat conduction pipe realizes the heat exchange between the class 1 system water and the class 2 system water by taking the pipe wall of the heat conduction pipe as a boundary in the process of crossing the exterior of the electric heating pipe. The stage 1 system water, which has undergone heat exchange by the process described above, will be recirculated to the atomic furnace along a closed loop pipeline, while the stage 2 system water will be converted to steam.

In the steam generator as described above, since the high-temperature and high-pressure radioactive water (level 1 system water) flows through the electric heating tube and the non-radioactive water (level 2 system water) flows through the outside of the electric heating tube, when the electric heating tube is damaged, the radioactive water (level 1 system water) penetrating the electric heating tube leaks to the outside and is mixed with the non-radioactive water (level 2 system water), which causes a serious problem that the entire area supplied after the non-radioactive water (level 2 system water) is converted into steam is contaminated by radioactive energy. Therefore, ensuring the soundness of the heat transfer pipe is an important issue that needs to be considered most advanced in the operation of the nuclear power plant.

However, although the 2-stage system water for steam generation in the conventional steam generator is supplied after being filtered and chemically treated, foreign substances and precipitates generated through various routes may flow into the inside of the steam generator during the internal circulation of the pipe, and the foreign substances flowing or generated through various routes as described above may be fouled on the outer surface of the heat transfer pipe and cause a reduction in heat exchange capacity and damage of the heat transfer pipe.

Therefore, removing the scale on the surface of the heat transfer pipe is a necessary means for ensuring the efficiency of the steam generator and the soundness of the heat transfer pipe, and it is necessary to manually perform work using a small endoscope camera in order to confirm the surface state of the heat transfer pipe.

However, in the above-described device, the endoscope camera is inserted into the heat pipe slit through the guide rail by the manual operation of the operator, and the operator must repeatedly perform the troublesome work of inserting and removing the endoscope camera for confirmation, and it is difficult to find a desired position for confirmation, and there is a high possibility that there is a portion that is not confirmed.

Further, the periphery of the steam generator belongs to a high radiation region, which causes exposure of workers to radiation, and thus it is difficult to effectively perform a visual inspection or a foreign matter removal work.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a steam generator inspection device that whether there is foreign matter to exist in the gap of heat pipe bundle to carry out the inspection.

The technical problems to be solved by the present invention are not limited to the technical problems mentioned above, and those having ordinary knowledge in the technical field of the present invention will be able to clearly understand other technical problems not mentioned through the following description.

In order to solve the above-described problem, an embodiment of the present invention provides a steam generator inspection device, including: a frame part mounted on the outer side of the steam generator through a hand hole of the steam generator; a rail guide part installed on the frame part in a manner that a part of the rail guide part protrudes into the steam generator through a hand hole; a rail part disposed inside the steam generator through the rail guide part; an inspection unit movably mounted on the rail unit and provided with an inspection camera; and a driving unit for driving the rail unit and the inspection unit.

In an embodiment of the present invention, the inspection unit may include: a moving unit for moving on the rail part; and a camera unit for mounting the movable belt mounted with the inspection camera.

In an embodiment of the present invention, the driving unit may include: 1 st pulley for winding the rail part; a moving cable connected to the moving unit; a 2 nd pulley around which one end of the moving cable is wound; and a 1 st driving shaft, around which the other end of the moving cable is wound, provided inside the 1 st pulley.

In an embodiment of the present invention, the track portion may include: a plurality of rail members hinge-connected to each other; and a fixing cable for fixing the plurality of rail members.

In an embodiment of the present invention, the fixing cable may be installed to penetrate the inside of the plurality of rail members.

In an embodiment of the present invention, the driving unit may further include: and a 2 nd driving shaft around which one end of the fixing cable is wound and which is provided inside the 1 st pulley.

In an embodiment of the present invention, the 1 st driving shaft and the 2 nd driving shaft can be driven independently of the 1 st pulley.

In an embodiment of the present invention, the moving cable may penetrate through the inside of the plurality of rail members and be wound around the 1 st driving shaft.

In an embodiment of the present invention, the plurality of rail members may include: a rail main body provided with 1 st and 2 nd connecting parts on both sides so as to be capable of hinge-connecting with adjacent rail members; and a rail leg which is provided at a lower portion of the rail main body and passes through an inside of the rail guide portion.

In an embodiment of the present invention, the rail guide portion may have a moving groove formed along a longitudinal direction thereof, the moving groove corresponding to a shape of the rail leg.

In an embodiment of the present invention, the plurality of rail members may further include: and a magnet provided on a side surface facing the adjacent rail member.

In an embodiment of the present invention, the camera unit can be disposed on a side of the mobile unit.

In an embodiment of the invention, the moving unit can include at least one pair of rollers (wheels), and the rail body is installed between the pair of rollers.

In an embodiment of the present invention, the camera unit can include: a supply roller for mounting the moving belt in a forward and backward manner.

In an embodiment of the present invention, the camera unit can include: and the 3 rd pulley is used for winding the moving belt.

In an embodiment of the present invention, the camera unit can further include: the camera for confirming the state is installed towards the front.

In an embodiment to which the present invention is applied, the present invention can further include: and a cable guide portion attached to the frame portion for guiding a hand hole entering direction of the movement cable.

In an embodiment of the present invention, the mobile unit can further include: and a tension sensor coupled to the movement cable.

In an embodiment of the present invention, the inspection unit may further include: and a position sensor for measuring the position of the inspection unit.

In an embodiment to which the present invention is applied, the rail portion may be arranged at 1/4 around the steam generator.

The utility model discloses in, can make the inspection portion move steadily through at steam generator internally mounted track portion to whether there is foreign matter to exist in the gap of heat conduction tube bundle easily and examine.

Therefore, the visual inspection can be effectively performed while avoiding exposure of the worker to a high radiation region.

Further, it is possible to confirm the portion of which the inspection is completed by recording the position data of the inspection part, thereby accurately inspecting all portions of the inside of the steam generator.

The effects of the present invention are not limited to the effects described above, but should be understood to include all effects derivable from the detailed description of the present invention or the configurations of the present invention recited in the claims.

Drawings

Fig. 1 is an oblique view illustrating a state in which a steam generator inspection device to which an embodiment of the present invention is applied is mounted to a steam generator.

Fig. 2 is an oblique view illustrating the steam generator inspection device of fig. 1.

Fig. 3 is an oblique view of the other side of fig. 2.

Fig. 4 is an exploded perspective view illustrating a part of a rail portion of the steam generator inspection device of fig. 1 in an exploded manner.

Fig. 5 and 6 are oblique views showing a part of the driving part of the steam generator inspection device in fig. 1.

Fig. 7 is an oblique view with a part of the structure in fig. 3 removed.

Fig. 8 is a perspective view showing the inspection unit in fig. 7 in a separated state.

Fig. 9 is an oblique view illustrating a part of the moving belt in fig. 8.

[ notation ] to show

1: steam generator inspection device

10: steam generator

12: hand hole

20: heat conduction pipe bundle

100: frame part

200: rail guide

204: movable groove

300: track part

320: multiple track parts

321: 1 st connecting part

322: 2 nd connecting part

323: track body

324: rail support

325: magnet

340: cable for fixing

400: inspection section

420: mobile unit

422: a pair of rollers

424: tension sensor

440: camera head unit

441: inspection camera

442: movable belt

443: supply stick

444: camera for state confirmation

460: position sensor

500: driving part

510: no. 1 pulley

512: center shaft

514: opening of the container

520: 2 nd pulley

530: 1 st drive shaft

540: 2 nd driving shaft

550: movable cable

600: cable guide

Detailed Description

Next, a preferred embodiment to which the steam generator inspecting apparatus of the present invention is applied will be described with reference to the accompanying drawings.

In addition, terms used in the following description are defined in consideration of functions of the present invention, and may be changed according to intentions and conventions of a user or an application, and the following embodiments are not intended to limit the scope of the claims of the present invention, but are merely exemplary contents of constituent elements disclosed in the claims of the present invention.

For the purpose of clearly explaining the present invention, portions not related to the explanation are omitted, and the same reference numerals are assigned to the same or similar components throughout the specification. Throughout the specification, when it is described that a certain portion "includes" a certain constituent element, unless explicitly stated to the contrary, it does not mean that other constituent elements are excluded, but means that other constituent elements can be further provided.

As shown in fig. 1, the steam generator inspection device 1 according to an embodiment of the present invention is mounted through a hand hole 12 of a steam generator 10, and more specifically, a gap between heat transfer tube bundles 20 disposed inside the steam generator 10 can be inspected by moving an inspection unit 400 along a rail unit 300 in a space between an inner wall of the steam generator 10 and the heat transfer tube bundles 20.

Next, referring to fig. 1 to 9, a steam generator inspection apparatus 1 to which an embodiment of the present invention is applied can generally include: frame portion 100, rail guide portion 200, rail portion 300, inspection portion 400, and drive portion 500.

The frame part 100 is attached to the outside of the steam generator 10 through the hand hole 12 of the steam generator 10, and can support the rail guide 200, the rail part 300, and the driving part 500 by configuring the outer shape of the steam generator inspection device 1. In the present embodiment, the frame portion 100 is formed of a rectangular parallelepiped skeleton, but is not limited thereto.

The rail guide 200 is mounted to the frame 100 in such a manner that a portion thereof protrudes into the steam generator 10 through the hand hole 12. The rail guide 200 is configured to be disposed in a space between the inner wall of the steam generator 10 and the heat conduction pipe bundle 20 by guiding the rail 300 as described later, and thus the rail guide 200 is formed to be bent in one side direction after entering the inside of the steam generator 10 through the hand hole 12. In this case, the length, the curvature, and the like of the rail guide 200 may be determined according to the characteristics of the steam generator 10.

The rail part 300 is disposed inside the steam generator 10 through the rail guide 200. In the present embodiment, the rail portion 300 may be disposed at 1/4 around the steam generator 10, as shown in fig. 1. Therefore, the length of the rail 300 can be determined according to the diameter of the steam generator 10, and an area corresponding to 1/4, that is, an area corresponding to 1/4 of the heat conduction bundle 20 can be inspected with reference to the cross section of the steam generator 10 every time the inspection device 1 is mounted on the steam generator 10.

As shown in fig. 2 and 3, the driving unit 500 may include a 1 st pulley 510 around which the rail unit 300 is wound, and the 1 st pulley 510 may be attached to the frame unit 100. When the 1 st pulley 510 is rotated, the rail part 300 can be installed in the steam generator 10 or can be collected from the steam generator 10.

Specifically, as shown in fig. 4, the rail portion 300 may include: a plurality of rail members 320 hinge-connected to each other; and a fixing cable 340 for fixing the plurality of rail members 320.

The plurality of rail members 320 include: a rail main body 323 having 1 st and 2 nd connecting parts 321 and 322 on both sides for hinge-connecting to adjacent rail members; and a rail leg 324 provided at a lower portion of the rail body 323 and passing through the inside of the rail guide 200. Therefore, as shown in fig. 3, the rail guide 200 may have a moving groove 204 formed along the longitudinal direction in accordance with the shape of the rail leg 324. Therefore, when the 1 st pulley 510 is rotated, the rail part 300 wound around the 1 st pulley 510 can be guided and disposed inside the steam generator 10 by the rail guide 200. In the present embodiment, the rail leg 324 is formed in the shape of "┷", but is not limited thereto.

Since the plurality of rail members 320 are connected to each other by hinges so as to be relatively rotatable, the fixing cable 340 serves to fix the positions of the plurality of rail members 320. As shown in fig. 4, the fixing cable 340 may be installed to penetrate the plurality of rail members 320, specifically, the rail legs 324, and as shown in fig. 5, the driving unit 500 may further include: the 2 nd driving shaft 540 may be wound with one end of the fixing cable 340. The 2 nd driving shaft 540 is provided inside the 1 st pulley 510 and can be driven independently of the 1 st pulley 510. In this case, as shown in fig. 6, an opening 514 may be provided in the center shaft 512 of the 1 st pulley 510, around which the track part 300 is wound, so that the fixing cable 340 is introduced into the center shaft 512 to be wound around the 2 nd driving shaft 540.

As described above, the fixing cable 340 is wound around the 2 nd driving shaft 540 and is inserted through one end of the plurality of rail members 320 and then attached to the other end thereof, whereby the fixing cable 340 can be pulled by driving the 2 nd driving shaft 540 to fix the positions of the plurality of rail members 320.

Further, each of the plurality of rail members 320 may include: and a magnet 325 provided on a side surface facing the adjacent rail member. Accordingly, the rail part 300 can be easily disposed inside the steam generator 10 by attaching or detaching the magnets 325 of the adjacent rail members, and the magnets 325 can be primarily fixed before the positions of the plurality of rail members 320 are fixed by the fixing cables 340.

Next, the inspection unit 400 movably mounted to the rail unit 300 will be described with reference to fig. 7 to 9.

The inspection unit 400 may include: a moving unit 420 for moving on the rail part 300; and a camera unit 440 for attaching a moving belt 442 to which an inspection camera 441 is attached. In this embodiment, the camera unit 440 is disposed on a side surface of the moving unit 420, the moving unit 420 moves on the rail 300, and the camera unit 440 is disposed on a side surface so as not to interfere with the rail 300, so that the moving belt 442 can be inserted along the slit of the heat conduction pipe bundle 20.

In the present embodiment, the inspection camera 441 can be attached perpendicular to the longitudinal direction of the moving belt 442, as shown in fig. 9. However, the present invention is not limited to this, and a plurality of inspection cameras may be attached to the moving belt, or may be attached at different angles depending on the situation.

Specifically, the moving unit 420 includes at least one pair of rollers (wheels) 422 between which the rail body 323 is mounted, and in the present embodiment, includes 4 pairs of rollers 422. The inspection unit 400 can move along the rail unit 300 as the 4-pair roller 422 rolls on the rail body 323.

The driving unit 500 may include: a moving cable 550 connected to the moving unit 420 to drive the moving unit 420; a 2 nd pulley 520 around which one end of the movement cable 550 is wound; and a 1 st driving shaft 530 around which the other end of the movement cable 550 is wound. In this embodiment, the 2 nd pulley 520 is mounted on the frame part 100 to be disposed above the rail part 300 with a certain distance from the 1 st pulley 510.

As shown in fig. 4 to 7, both ends of the movement cable 550 connected to the moving unit 420 are wound around the 2 nd pulley 520 and the 1 st driving shaft 530, respectively, and are installed to penetrate the inside of the plurality of rail members 320. That is, the movement cable 550, one end of which is wound around the 2 nd pulley 420, is connected to the movement unit 420, is guided into the inside of the rail member 320 at the end of the rail part 300, and then passes through the inside of the plurality of rail members 320 and the other end thereof is wound around the 1 st driving shaft 530.

In this case, the hand-hole entering direction of the movement cable 550 can be guided by attaching a cable guide to the frame portion 100. That is, the cable guide 600 can guide the moving cable 550 to a direction corresponding to a moving direction of the moving unit 420 along the rail part 300 so as to easily move forward and backward along the moving unit 420. A roller is installed at the end of the cable guide 600 so that the moving cable 550 can be guided by the roller without friction.

The 1 st driving shaft 530 is disposed inside the 1 st pulley 510 in parallel with the 2 nd driving shaft 540 and can be driven independently of the 1 st pulley 510. Similarly, the movement cable 550 can be introduced into the center shaft 512 through the opening 514 and wound around the 1 st driving shaft 530.

Accordingly, when the other end of the movement cable 550 wound around the 1 st driving shaft 530 is wound and one end of the movement cable 550 wound around the 2 nd pulley 520 is unwound, the moving unit 420 moves forward, and when the other end of the movement cable 550 wound around the 1 st driving shaft 530 is unwound and one end of the movement cable 550 wound around the 2 nd pulley 520 is wound, the moving unit 420 moves backward.

As shown in fig. 8, the moving means 420 may further include: the tension sensor 424 is coupled to the traveling cable 550. The tension sensor 424 can measure the tension applied to the moving cable 550 to move the moving unit 420 forward and backward. Since the movement of the moving unit 420 can be performed only when a certain amount of tension or more is applied to the moving cable 550, whether the moving unit 420 moves or not can be determined by measuring the tension using the tension sensor 424.

The camera unit 440 may further include: a supply roller 443 attached to the movable belt 442 so as to be movable forward and backward; thereby, the moving belt 442 can be easily moved forward and backward by the supply roller 443 and inserted into the gap of the heat conduction pipe bundle 20 or recovered therefrom.

In this embodiment, the moving belt 442 is attached to the supply roller 443 so as to be able to advance and retreat by being wound around a separate pulley, but the present invention is not limited thereto, and in another embodiment to which the present invention is applied, the camera unit may include: and the 3 rd pulley is used for winding the moving belt.

In a different embodiment, the camera unit 440 may further include: the state confirmation camera 444 is attached to face forward. As shown in fig. 8, in the present embodiment, the state confirmation camera 444 can be mounted at the forefront of the camera unit 440 to be used for confirming a forward state.

Further, the inspection unit 400 may further include: the position sensor 460 measures the position of the inspection unit 400. By recording the position data of the inspection part 400 measured by the position sensor 460, it is possible to confirm the portion of the steam generator 100 that has been inspected, and to accurately inspect all portions of the inside of the steam generator 10.

In the present invention, the inspection part 400 can be stably moved by installing the rail part 300 inside the steam generator 100, so that it is easily inspected whether or not foreign materials exist in the gaps of the heat conductive bundle 20.

Therefore, the visual inspection can be effectively performed while avoiding exposure of the worker to a high radiation region.

The present invention is not limited to the specific embodiments and the description described above, and those having ordinary knowledge in the technical field of the present invention can implement various modifications without departing from the gist of the present invention claimed in the claims, and the modifications described above are included in the scope of the present invention.

Claims (20)

1. A steam generator inspection device, comprising:

a frame part mounted on the outer side of the steam generator through a hand hole of the steam generator;

a rail guide part installed on the frame part in a manner that a part of the rail guide part protrudes into the steam generator through a hand hole;

a rail part disposed inside the steam generator through the rail guide part;

an inspection unit movably mounted on the rail unit and provided with an inspection camera; and the number of the first and second groups,

and a driving part for driving the track part and the inspection part.

2. The steam generator inspection device of claim 1, wherein:

the inspection unit includes:

a moving unit for moving on the rail part; and the number of the first and second groups,

and a camera unit for mounting the movable belt mounted with the inspection camera.

3. The steam generator inspection device of claim 2, wherein:

the drive unit includes:

1 st pulley for winding the rail part;

a moving cable connected to the moving unit;

a 2 nd pulley around which one end of the moving cable is wound; and the number of the first and second groups,

and a 1 st driving shaft around which the other end of the movement cable is wound and which is provided inside the 1 st pulley.

4. The steam generator inspection device of claim 3, wherein:

the above-mentioned track portion includes:

a plurality of rail members hinge-connected to each other; and the number of the first and second groups,

and a fixing cable for fixing the plurality of rail members.

5. The steam generator inspection device of claim 4, wherein:

the fixing cable is installed to penetrate through the inside of the plurality of rail members.

6. The steam generator inspection device of claim 4, wherein:

the drive unit further includes:

and a 2 nd driving shaft around which one end of the fixing cable is wound and which is provided inside the 1 st pulley.

7. The steam generator inspection device of claim 6, wherein:

the 1 st drive shaft and the 2 nd drive shaft can be driven independently of the 1 st pulley.

8. The steam generator inspection device of claim 4, wherein:

the movement cable penetrates the inside of the plurality of rail members and is wound around the 1 st drive shaft.

9. The steam generator inspection device of claim 4, wherein:

the plurality of rail members each include:

a rail main body provided with a 1 st link part and a 2 nd link part on both sides so as to be capable of hinge-connecting with adjacent rail members; and the number of the first and second groups,

and a rail support leg which is provided at a lower portion of the rail main body and passes through an inside of the rail guide portion.

10. The steam generator inspection device of claim 9, wherein:

a moving groove corresponding to the shape of the rail leg is formed in the rail guide along the longitudinal direction.

11. The steam generator inspection device of claim 9, wherein:

the plurality of rail members further include:

and a magnet provided on a side surface facing the adjacent rail member.

12. The steam generator inspection device of claim 2, wherein:

the camera unit is disposed on a side surface of the moving unit.

13. The steam generator inspection device of claim 9, wherein:

the moving unit includes at least one pair of rollers, and the rail body is installed between the pair of rollers.

14. The steam generator inspection device of claim 2, wherein:

the camera unit includes: a supply roller for mounting the moving belt in a forward and backward manner.

15. The steam generator inspection device of claim 2, wherein:

the camera unit includes: and the 3 rd pulley is used for winding the moving belt.

16. The steam generator inspection device of claim 2, wherein:

the camera unit further includes: the camera for confirming the state is installed towards the front.

17. The steam generator inspection device of claim 3, further comprising:

and a cable guide portion attached to the frame portion for guiding a hand hole entering direction of the movement cable.

18. The steam generator inspection device of claim 13, wherein:

the mobile unit further includes:

and a tension sensor coupled to the movement cable.

19. The steam generator inspection device of claim 2, wherein:

the inspection unit further includes:

and a position sensor for measuring the position of the inspection unit.

20. The steam generator inspection device of claim 1, wherein:

the rail portion is 1/4 disposed around the steam generator.

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