KR20140112549A - Weld inspection device and weld inspection method for boiler water-cooled wall - Google Patents

Abstract

The object of the present invention is to provide a welding portion inspecting apparatus and a welding portion inspecting method for a water cooling-down wall of a boiler, which can easily and reliably detect a penetration defect of a water-cooled tube and a pin, A vacuum box (100) of a weld inspection apparatus for a boiler water cooling wall comprises two side walls respectively arranged to follow a parallel water-cooling pipe, at least one end wall (114) arranged to cross the longitudinal direction of the parallel water- Side edge sealing member for sealing between the edge of the side wall and the parallel water-cooled pipe 10, the edge 138 of the end wall 114, the parallel water-cooled pipe 10 and the pin 12, And an end edge sealing member (130). The edge 130 of the end wall 114 has a linear edge portion 140 along the fin 12 and an arc edge portion 142 along the parallel water cooling pipe 10, The seal member 130 has a seal portion 146 that is linearly attached to the linear edge portion 140 and an arc-shaped seal portion 148 that is attached to the arc edge portion 142.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of inspecting a welding portion of a water-cooled wall of a boiler,

The present invention relates to a welding part inspecting apparatus and a welding part inspecting method for a water cooling wall of a boiler.

JIS Z2329 2002 specifies the vacuum method for the foam leakage test method. According to this vacuum method, the vacuum box is brought into contact with the test surface while keeping the airtightness, and the pressure inside the vacuum box is reduced. By the presence or absence of foaming of the foamed liquid applied to the test surface, Check the location.

Patent Document 1 discloses a pipe-plate leakage inspection apparatus of a plurality of pipes capable of inspecting leakage of a plurality of cooling pipes based on such a vacuum method. The two overlapping boxes of the leak testing device are in contact with a flat plate and examine the leakage of the cooling line extending between the plates.

On the other hand, PT (penetration test) inspection is known as a leakage inspection method of a welded portion. In the case of the PT test, the object to be inspected is cleaned with the cleaning liquid, and then the penetrant is applied to the object to be inspected. Then, the developer is wiped off after wiping off the excess permeate on the surface of the portion to be inspected. According to the PT inspection, the penetrating liquid penetrating the defects of the welded portion is colored, so that the presence or absence of defects can be visually confirmed.

Japanese Utility Model Publication No. 1987-148933

In the boiler water cooling wall, the water cooling pipes are arranged in parallel, and the gaps between the water cooling pipes are clogged by the fins welded along the longitudinal direction to the water cooling pipe. Therefore, there is unevenness along the curvature of the outer circumferential surface of the water-cooled pipe in the boiler water-cooling wall, and when the leakage inspection device of the pipe plate of the condenser of Patent Document 1 is used, the overlock box can not be hermetically contacted to the boiler water- Therefore, even if a pipe test apparatus of a pipe plate of a condenser of Patent Document 1 is used, it is impossible to execute the vacuum method prescribed in JIS Z2329 2002 for the welded portion of the boiler water cooling wall.

Therefore, the inspection of the welded portion of the water cooling wall of the boiler has conventionally been carried out by the PT inspection. However, the chemical liquid used in the PT test is flammable, and there is a problem that it is necessary to pay attention to the handling of the chemical liquid and troublesome inspection. In addition, the PT inspection has a problem that it takes a long time to inspect because the number of steps is large, and that the accuracy of detection of penetrating defects is not high.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a water-cooled pipe and a fin, which can be easily and reliably detected in a short time, And to provide a method for inspecting a weld portion of a water cooling wall of a boiler and a method for inspecting a weld portion.

In order to solve the above-mentioned problems, the present invention provides an apparatus for inspecting a welded portion of a water cooling wall of a boiler, comprising a plurality of parallel water-cooled pipes arranged in parallel and fins covering the gap between adjacent parallel water- A vacuum box in which a part of at least two parallel water-cooled tubes adjacent to each other and a part of the fin constitute a part to be inspected and forms a vacuum chamber together with the part to be inspected; and an exhaust device connected to the vacuum box, The vacuum box comprises a transparent window portion and two side walls respectively disposed along the corresponding parallel water-cooling tubes out of the two parallel water-cooled tubes, and at least one side wall arranged to cross the longitudinal direction of the parallel water- A side wall seal for mounting between the edge of the side wall and the parallel water- And an end edge seal member mounted on an edge of the end wall and sealing between an edge of the end wall and the parallel water-cooled pipe and the fin, and the edge of the end wall is formed in a straight shape And an edge portion of an arc shape along the parallel water-cooling pipe, wherein the edge portion seal member has a linear seal portion mounted on the linear edge portion, and a seal portion mounted on the arc edge portion A weld inspection apparatus for a boiler water-cooling wall characterized by having an arc-shaped seal portion is provided.

According to the welding portion inspecting apparatus for a boiler water-cooling wall of the present invention, the edge of the end wall has an arcuate edge portion, and the end edge seal member has an arc-shaped seal portion to be mounted on the arc edge portion. Therefore, even if irregularities formed by the parallel water-cooled pipe and the fin exist in the inspection target portion of the water cooling wall of the boiler, the vacuum box can form an airtight vacuum chamber together with the inspection target portion. Therefore, according to this welding portion inspecting apparatus, it is possible to easily and reliably detect the penetrating defects of the welded portion in the inspection target portion in a short time, irrespective of irregularities in the inspection target portion of the water cooling wall of the boiler.

Preferably, the thickness of the linear sealing portion is larger than the thickness of the arc-shaped sealing portion.

According to this structure, even if the welded portion between the parallel water-cooled tube and the pin or the welded portion between the plate pieces constituting the pin protrudes from the periphery of the welded portion, since the thickness of the linear sealed portion contacting the welded portion is large, Can be deformed to match the protrusion of the welded portion. Therefore, even if the welded portion is protruded, the welded portion and its periphery are surely sealed by the linear seal portion, so that a vacuum chamber is formed by the vacuum box.

In the weld portion inspecting apparatus for a boiler water-cooling wall used in a case where a part of the parallel water-cooled pipe extends linearly in the inspection target portion of the water cooling wall of the boiler, preferably, Spaced from one another in the longitudinal direction, and having two end walls, each of which is fitted with the end edge seal member.

According to such a configuration, when the parallel water-cooling pipe extends straight in the inspection target portion of the boiler water-cooling wall, a vacuum chamber in which the vacuum box is airtight can be formed with a simple structure.

In the weld portion inspecting apparatus for a boiler water-cooling wall used in the case where the parallel water-cooled pipe has an arcuate curved portion in the longitudinal direction at the inspection target portion of the boiler water-cooling wall, preferably, the vacuum box is provided with the parallel water- Two side walls spaced apart from each other in the lengthwise direction of the side wall sealing member and each having an edge having an arcuate curved portion along a part of the parallel water- And a side wall seal member mounted thereon.

According to this construction, when the parallel water-cooling pipe extends in the arc shape in the inspection target portion of the water cooling wall of the boiler, a vacuum chamber in which the vacuum box is hermetically sealed can be formed with a simple structure.

A cross water cooling pipe extending in a direction intersecting with the parallel water cooling pipe in which a gap between adjacent pipes is blocked by the fin in the inspection target portion of the boiler water cooling wall and the parallel water cooling pipe, In the welded portion inspecting apparatus for the water cooling wall of the boiler used when the gaps constituting the first and second fins are closed by the second fins, preferably, the vacuum box is spaced apart from the second fins in the longitudinal direction of the parallel water- A side wall extending between the end wall and the intersecting water cooling wall; a ceiling wall coupled with the end wall and the sidewall; and an end edge sealing member A seal member sealing the side wall and the parallel water-cooled pipe, the crossed water-cooled pipe, and the second fin, including the side edge seal member, And a seal member for sealing between the ceiling wall and the cross water cooling pipe.

According to this configuration, when a cross water pipe exists in the vicinity of the parallel water-cooling pipe in the inspection target portion of the water cooling wall of the boiler, a vacuum chamber in which the vacuum box is airtight can be formed with a simple structure.

Further, the present invention is an apparatus for inspecting a weld portion of a water-cooling wall of a boiler, comprising a plurality of parallel water-cooling pipes arranged in parallel and fins for closing gaps between adjacent parallel water- A welding portion inspecting device is provided, a foaming liquid is given to a portion to be inspected of the water cooling wall of the boiler, the vacuum chamber is formed by the vacuum box, and the pressure in the vacuum chamber is lowered by using an exhaust device connected to the vacuum box And confirming visually whether or not the foamed liquid in the vacuum box is foamed. The present invention also provides a method of inspecting a welded portion of a water cooling wall of a boiler.

According to the welding portion inspection method of the boiler water-cooled wall of the present invention, the edge of the end wall of the prepared vacuum box has an arc-shaped edge portion, and the end portion seal member has an arc-shaped seal portion to be mounted on the arc- . Therefore, even if irregularities formed by the parallel water-cooled pipe and the fin exist in the inspection target portion of the water cooling wall of the boiler, the vacuum box can form an airtight vacuum chamber together with the inspection target portion. Therefore, according to this welding portion inspection method, it is possible to easily and reliably detect defects penetrated through the welded portion in the inspection target portion in a short time, regardless of irregularities in the inspection target portion of the water cooling wall of the boiler.

According to the present invention, there is provided a welding portion inspecting apparatus and a welding portion inspecting method for a boiler water-cooling wall capable of easily and reliably detecting defective penetration of a welded portion in a water cooling wall of a boiler in a short time.

BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a view schematically showing a structure of a water cooling wall of a boiler to which a welding inspection apparatus according to an embodiment of the present invention is applied. FIG.
Fig. 2 is a perspective view schematically showing a vacuum box constituting a welding portion inspection apparatus of a boiler water-cooling wall according to the first embodiment together with a bottom water-cooling wall of a boiler water-cooling wall.
Fig. 3 is a view for explaining the welding structure of the water-cooled pipe and the fin in the bottom water-cooled wall of the boiler water-cooling wall in Fig. 2;
4 is a view schematically showing a configuration of a welding portion inspection apparatus for a boiler water-cooling wall according to the first embodiment.
Fig. 5 is a perspective view schematically showing a vacuum box in Fig. 4 in an exploded state.
Fig. 6 is a front view schematically showing a vacuum box in Fig. 4, with a part of a bottom water-cooling wall to be inspected as a section. Fig.
7 is a side view schematically showing a vacuum box constituting a welding portion inspection apparatus for the boiler water-cooling wall of the second embodiment.
8 is a view showing the end wall and end edge seal member in the direction of the arrow VIII in Fig.
9 is a perspective view schematically showing a vacuum box constituting a welding portion inspecting apparatus for the boiler water-cooling wall according to the third embodiment together with the bottom water-cooling wall and the side wall of the boiler water-cooling wall to be inspected.
10 is a perspective view schematically showing an enlarged vacuum box in Fig.
Fig. 11 is a perspective view schematically showing an enlarged view of the vacuum box in Fig. 9 as seen from another direction. Fig.
Figs. 12 (a) to 12 (c) are three views of the vacuum box in Fig. 9. Fig.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. However, the dimensions, materials, shapes, relative positions, and the like of the components described in the embodiments are not intended to limit the scope of the present invention unless otherwise specified.

1 schematically shows the structure of the boiler water-cooling wall 1 together with the vacuum boxes 100, 200 and 300 of the welding portion inspection apparatuses according to the first to third embodiments. The boiler water cooling wall 1 has a bottom water cooling wall 2, a ceiling water cooling wall 3, a front water cooling wall 4 and a side water cooling wall 5 and has a bottom water cooling wall 2, The water-cooling tube constituting the wall 4 and the ceiling water-cooling wall 3 connects between the steam drum 7 and the water drum 8.

[First Embodiment]

2 is a perspective view schematically showing a vacuum box 100 of a welding portion inspection apparatus according to the first embodiment together with a part of a bottom water-cooling wall 2. Fig. The bottom water cooling wall 2 is composed of a plurality of water cooling tubes 10 arranged in parallel with predetermined intervals and a fin 12 arranged so as to block the gap between the water cooling tubes 10. The fins 12 are welded to the water-cooled tube 10 along the longitudinal direction of the water-cooled tube 10, and the gaps between the water-cooled tubes 10 are blocked over the longitudinal direction. Therefore, the bottom water-cooling wall 2 has irregularities along the curvature of the outer circumferential surface of the water-cooling tube 10.

More specifically, as shown in Fig. 3, each of the water-cooled pipes 10 is constituted by a plurality of straight pipes 10a connected in series via a welded portion 14. [ The fin 12 is constituted by a plurality of plate pieces 12a and 12b and the welded portion 16 is provided between the water-cooled pipe 10 and the plate pieces 12a and 12b and between the plate pieces 12a and 12b. Respectively.

For the sake of explanation, hatching is given to the welded portion 16 in Fig.

Fig. 4 schematically shows a configuration of a welding portion inspection apparatus according to the first embodiment. 5 is a perspective view schematically showing the vacuum box 100 in an exploded state.

When the vacuum box 100 is brought into contact with the inspection target portion of the bottom water cooling wall 2, a part of the water cooling tube 10 and a part of the fin 12 constituting the inspection target portion together with the airtight vacuum chamber .

In the vacuum box 100, a pipe 102 passing through a vacuum chamber is connected, and the pipe 102 is branched into T-shaped, for example. In the middle of one branch, an atmospheric release valve 104 is provided, and the tip of the branch opens in the atmosphere. Therefore, by opening and closing the atmospheric release valve 104, the vacuum chamber and the atmosphere can be communicated or blocked.

An exhaust valve 106 and an exhaust device inlet valve 108 are provided in the middle of the other branch and the tip of the other branch is connected to the exhaust device 110. [

The exhaust device 110 is constituted by, for example, a vacuum pump or an air ejection. When the air release valve 104 is closed and the exhaust valve 106 and the exhaust device inlet valve 108 are opened The air in the vacuum chamber is exhausted to the outside.

The vacuum box 100 includes a pair of side walls 112, a pair of end walls 114, a ceiling wall 116, a gasket 118, a pair of long press plates 120, a pair of short press plates A pair of knobs 124, a pressure gauge 126, a pair of side edge seal members 128, and a pair of end edge seal members 130. As shown in FIG.

The pressure gauge 126 is made of, for example, a bourbon pressure gauge and indicates the pressure in the vacuum chamber.

Each of the ceiling wall 116, the side wall 112, and the end wall 114 is made of, for example, a thick plate made of acrylic, and has translucency. The ceiling wall 116 has a rectangular planar shape, and a flat rectangular ring-shaped gasket 118 fits tightly at a side edge of the ceiling wall 116. The gasket 118 is for example a rubber packing and the side wall 112 and the end wall 114 are secured with screws 122 to the ceiling wall 116 via the gasket 118.

Thus, the ceiling wall 116 is hermetically coupled to the side wall 112 and the end wall 114. In addition, the side wall 112 and the end wall 114 are airtightly coupled to each other via an adhesive.

The head of the screw 122 is in contact with the ceiling wall 116 through the elongated pressure plate 120 and the short press plate 121 so that the gasket 118 is uniformly compressed, And between the side wall 112 and the end wall 114 is sealed preferably in a hermetic manner.

The side wall 112 has a rectangular planar shape and a rectangular parallelepiped side edge seal member 128 is fixed to the edge (seal edge) of the side wall 112 opposite to the ceiling wall 116 with an adhesive . The side edge seal member 128 has a length and width corresponding to the size of the seal edge of the side wall 112 and covers the side wall 112 globally. A through hole 131 for mounting the pressure gauge 126 is formed on one of the side walls 112.

6 is a view schematically showing the front face of the vacuum box 100 together with a part of the bottom water-cooling wall 2 to be inspected. In the end wall 114, a through hole 132 through which the pipe 102 is connected is formed.

6, the end wall 114 is integrally formed with a rectangular portion 134 having a rectangular planar shape and a trapezoidal portion 134 having a substantially trapezoidal planar shape and extending integrally to one side of the rectangular portion 134, (136). However, the sides of the trapezoidal portion 136 have a quadrangular arc shape.

The edge (seal edge) 138 of the end wall 114 on the opposite side of the ceiling wall 116 has a straight edge portion (first straight edge portion) (the first straight edge portion) formed by the short sides of the trapezoidal portion 136 (Second straight edge portion) 140 constituted by an arc-shaped edge portion 142 composed of side surfaces of the trapezoidal portion 136 and a portion of one side of the rectangular portion 134 144). The end edge seal member 130 is fixed to the seal edge 138 of the end wall 114 with an adhesive. The end edge seal member 130 and the side edge seal member 128 are also airtightly coupled by an adhesive.

The end edge seal member 130 has a length and width corresponding to the size of the seal edge 138 of the end wall 114 and covers the seal edge 138 globally. The end edge seal member 130 includes a first linear seal portion 146 that covers the first straight edge portion 140, an arc shaped seal portion 148 that covers the arc edge portion 142, And a second linear sealing portion 150 that covers the second straight-line-shaped edge portion 144.

The first linear sealing portion 146 has a thickness T1 and the outer surface of the first linear sealing portion 146 is in contact with the first straight line And is parallel to the shape edge portion 140. For example, the thickness T1 is 12 mm.

On the other hand, when the free water-cooled wall 2 is in a free state not in contact with the inspection target portion, the arc-shaped seal portion 148 and the second linear seal portion 150 have the same thickness T2, The outer surface of the second linear sealing portion 150 and the outer surface of the second linear sealing portion 150 are parallel to the arcuate edge portion 142 and the second linear edge portion 144. For example, the thickness T2 is 10 mm.

The second straight-line-shaped edge 144 and the second straight-line-shaped sealing portion 150 may be in the form of an arc, or they may be of a circular shape that is capable of tightly coupling the side-edge seal member 128 and the end- It may be omitted. That is, the second straight-line-shaped edge portion 144 and the second linearly-shaped sealing portion 150 are not essential components.

Preferably, the thickness T1 is greater than the thickness T2, and more preferably the thickness T1 is greater than the thickness T2 by an amount corresponding to the projecting height (the build-up thickness) of the welded portion 16 from the fin 12. [ Big. As a preferable example, the difference (T1-T2) between the thickness T1 and the thickness T2 is within the range of 2 mm to 4 mm, and in this embodiment, the difference (T1-T2) is 2 mm.

Preferably, the end edge seal member 130 is formed of an inclined surface which is provided so as to cut the area in which the outer surface of the first linear seal portion 146 and the outer surface of the circular arc shaped seal portion 148 meet It is preferable to have the outer surface 152.

The side edge seal member 128 and the end edge seal member 130 are made of non-breathable foam rubber, preferably made of chromoprene rubber. As a preferred example, a neoprene (registered trademark) sponge may be used as the side edge seal member 128 and the end edge seal member 130.

Preferably, the side edge seal member 128 and the end edge seal member 130 have a hardness in the range of 25 占 degrees.

An inspection method of the welded portion 16 using the welded portion inspection apparatus of the boiler water-cooled wall of the above-described first embodiment will be described.

First, the foaming liquid is applied to the inspection target portion of the boiler water cooling wall 1. [ The object to be inspected is a part of the water cooling wall 1 of the boiler in which the water-cooled pipe 10 extends in a straight line. As the foamed liquid, for example, Super Bubble (manufactured by MARKTEC CO., LTD.) Can be used.

Next, the vacuum box 100 is brought into contact with the inspection target portion. 2, when the vacuum box 100 is brought into contact with the portion to be inspected, the side wall 112 extends along the longitudinal direction of the water-cooling tube 10, A vacuum box 100 is disposed so as to intersect the longitudinal direction of the water-cooled pipe 10. At this time, the side edge seal member 128 is in contact with the outer surface of the water-cooled pipe 10, and the first linear seal portion 146 of the end edge seal member 130 contacts the pin 12, The vacuum box 100 is disposed such that the arc-shaped seal portion 148 and the second linear seal portion 150 are in contact with the outer surface of the water-

After the vacuum box 100 is disposed at a predetermined position, the air release valve 104 is closed, the exhaust valve 106 and the exhaust device inlet valve 108 are opened, and the exhaust device 110 is operated . As a result, the air in the vacuum chamber formed by the vacuum box 100 and the inspection target portion is exhausted to the outside, and the pressure in the vacuum chamber is lowered.

According to JIS Z2329 2002, the pressure in the vacuum box is reduced to 0.015 MPa or lower than the atmospheric pressure when there is no specific rule. In the present embodiment, the pressure is lowered until the inspection pressure reaches 0.05 MPa to 0.06 MPa, and the foaming of the foamed liquid is visually confirmed. When the foamed liquid is foamed, it can be seen that defects such as pinholes and cracks penetrating the welded portion 16 exist in the foamed portion.

Further, in the present embodiment, the ceiling wall 116 has a light-transmitting property and has a function as a window for visual confirmation. The side wall 112 and the end wall 114 can be either light-transmissive or non-transmissive.

When the presence or absence of foaming is confirmed by visual confirmation, the inspection of the inspection target portion is terminated. When inspecting the next inspection target portion, the air release valve 106 is closed, then the air release valve 104 is opened, and outside air is introduced into the vacuum chamber. Then, holding the grip 124 and moving the vacuum box 100 to the next inspection target portion, the above procedure may be repeated. When the vacuum box 100 is moved along the longitudinal direction of the water-cooling tube 10 by the length of the vacuum box 100, the inspection can be performed efficiently.

According to the welding portion inspection apparatus for the boiler water-cooling wall of the first embodiment, the edge of the end wall 114 has an arc-shaped edge portion 142, and the edge portion sealing member 130 is formed into an arc- Shaped seal portion 148 to be mounted on the base member 142. [ Therefore, even if irregularities formed by the water-cooled pipe (parallel water-cooled pipe) 10 and the fin 12 exist in the portion to be inspected of the boiler water-cooling wall 1, A confined vacuum chamber can be formed together. Therefore, according to this welding portion inspecting apparatus, it is possible to reliably detect the penetrating defects of the welded portion 16 in the inspection target portion irrespective of the irregularities in the inspection target portion of the water cooling wall 1 of the boiler.

According to the welding portion inspecting apparatus for the boiler water-cooling wall of the first embodiment described above, the welded portion 16 between the water-cooled pipe 10 and the fin 12 or the welded portion between the plate pieces 12a of the fin 12 The first linear sealing portion 146 is larger than the first linear sealing portion 146 in contact with the welding portion 16 because the thickness of the first linear sealing portion 146 is larger than the thickness of the welding portion 16 16). Therefore, even if the welded portion 16 protrudes, the welded portion 16 and the periphery thereof are surely sealed by the first linear sealed portion 146, so that a vacuum chamber is formed by the vacuum box 100 .

According to the welding portion inspection apparatus for the boiler water-cooling wall of the first embodiment described above, when the water-cooled tube 10 extends linearly in the inspection target portion of the boiler water-cooling wall 1, , The vacuum box 100 can form an airtight vacuum chamber.

[Second Embodiment]

Hereinafter, a welding portion inspection apparatus for a boiler water-cooling wall according to a second embodiment will be described. Further, among the configurations of the second embodiment, the same or similar elements as those of the first embodiment are denoted by the same names or reference numerals, and the description thereof is simplified or omitted.

The welding portion inspecting apparatus of the second embodiment is used for inspecting a portion where the water-cooled tube 10 is curved in an arc shape. For example, a corner portion (corner Section). Therefore, the welding portion inspection apparatus of the second embodiment is different from the welding portion inspection apparatus of the first embodiment only in that a vacuum box 200 shown in FIG. 7 is used in place of the vacuum box 100 .

7, the water-cooled tube 10 has a curved portion curved in an arc shape in the longitudinal direction, and the side wall 202 of the vacuum box 200 has an arc-shaped curved portion on the side opposite to the ceiling wall 204 And has an edge (seal edge) 206. The curved portion of the sealing edge 206 has an appropriate curvature corresponding to the curved portion of the water-cooled tube 10. A side edge seal member 208 of a constant thickness is mounted on the seal edge 206 and the side edge seal member 208 extends along the water-cooled pipe 10 having an arc-shaped curved portion.

The end wall 210 of the vacuum box 200 is fixed to the ceiling wall 204 so as to cross the longitudinal direction of the water-cooling tube 10 when the vacuum box 200 is mounted on the inspection target portion. Therefore, the end wall 210 is inclined with respect to the flat ceiling wall 204 along the curvature of the water-cooled tube 10.

In Fig. 7, although the gasket, the elongated pressure plate, the short press plate, the screw and the handle are omitted, the vacuum box 200 has these components.

8 shows the end wall 210 and the end edge seal member 212 when viewed in the direction along the arrow VIII in FIG.

The end wall 210 is composed of a rectangular portion 214 and a trapezoidal portion 216. The seal edge 218 of the end wall 210 includes a first straight edge 220, an arcuate edge 222, And two straight-line-shaped edges 224. The end edge sealing member 212 includes a first linear sealing portion 226, an arc-shaped sealing portion 228, and a second linear sealing portion 230. Preferably, the end edge seal member 212 has an outer surface 232 (see FIG. 3) formed of an inclined surface, which is provided so as to cut the area, where the outer surface of the first linear seal portion 226 and the outer surface of the arc- ).

The method of using the welding portion inspection apparatus of the boiler water-cooling wall of the second embodiment is the same as that of the first embodiment.

According to the welding portion inspection apparatus for the boiler water-cooling wall of the second embodiment, as in the case of the first embodiment, regardless of the irregularities in the inspection target portion of the boiler water cooling wall 1, It is possible to reliably detect defects of the semiconductor device.

According to the welding portion inspecting apparatus for the boiler water cooling wall of the second embodiment described above, even if the welding portion 16 protrudes like the first embodiment, the first linear sealing portion 226 can prevent the welding portion (16) and its surroundings are reliably sealed, a vacuum chamber is formed by the vacuum box (200).

According to the welding portion inspecting apparatus for the boiler water-cooling wall of the second embodiment described above, when the water-cooled tube 10 extends in an arc shape in the inspection target portion of the boiler water-cooling wall 1, , The vacuum box 200 can form an airtight vacuum chamber.

[Third embodiment]

Hereinafter, a welding portion inspection apparatus for a boiler water-cooling wall according to a third embodiment will be described. The same or similar components as those of the first embodiment and the second embodiment among the configurations of the third embodiment are denoted by the same names or reference numerals, and the description thereof is simplified or omitted.

As shown in FIG. 9, the apparatus for inspecting the weld portion of the boiler water-cooling wall of the third embodiment is used for inspecting the angle of the water-cooling wall 1 arranged so as to cross the water-cooling tube 10. This inspection target portion is an angle formed by the bottom water cooling wall 2 and the side water cooling wall 5 of the boiler water cooling wall 1 and is a water cooling pipe (parallel water cooling pipe) 10 of the side water cooling wall 5, And the pin 12 and the water-cooled pipe (cross water-cooled pipe) 10 of the bottom water-cooled wall 2 are clogged by the pins 302 for use in the welding.

Therefore, only in the point that the vacuum box 300 is used in place of the vacuum box 100, the apparatus for inspecting the weld portion of the boiler water-cooling wall of the third embodiment is provided with the weld portion inspection apparatus of the boiler water- It is different.

Figs. 10 and 11 are perspective views schematically showing the vacuum box 300. Fig. The vacuum box 300 has one end wall 304, a pair of side walls 306, and a ceiling wall 308 for inspecting the angle of the boiler water cooling wall 1.

When the vacuum box 300 is installed in the inspection target portion, the end wall 304 is disposed so as to cross the longitudinal direction of the water cooling pipe 10 of the side water cooling wall 5. An end edge seal member 312 is attached to the edge (seal edge) 310 of the end wall 304 facing the side water cooling wall 5.

When the vacuum box 300 is installed in the inspection target portion, the side wall 306 is disposed along the longitudinal direction of the water cooling pipe 10 of the side water cooling wall 5. Side edge seal member 316 is attached to the edge (seal edge) 314 of the side wall 306 facing the side water cooling wall 5. On the other hand, a side edge seal member 320 is attached to the edge (seal edge) 318 of the side wall 306 facing the bottom water-cooled wall 2.

Further, when the vacuum box 300 is installed in the inspection target portion, the ceiling wall 308 is arranged to face the side water cooling wall 5. The ceiling edge seal member 324 is mounted on the edge (seal edge) 322 of the ceiling wall 308 opposite to the water-cooled pipe 10 of the bottom water cooling wall 2.

12 (a) to 12 (c) are schematic three-sided views of the vacuum box 300. FIG. The end wall 304 is composed of a rectangular portion 325 and two trapezoidal portions 326 integrally formed on one side of the rectangular portion 325. The sealing edge 310 of the end wall 304 has a first straight edge 326, a circular edge 328, a second straight edge 330, and a semicircular arc-shaped edge 332 . The end edge sealing member 312 has a semi-circular arc shape covering the first linear sealing portion 334, the circular sealing portion 336, the second linear sealing portion 338, and the circular arc edge 332 Shaped seal portion 340 of a circular arc shape.

The end edge seal member 312 is formed of an inclined surface which is provided so as to cut the area in which the outer surface of the first linear seal portion 334 and the outer surface of the circular seal portions 336 and 340 meet, And an outer surface 342.

The side wall 306 includes a rectangular portion 343 and a trapezoidal portion 344 integrally connected to one side of the rectangular portion 343. The sealing edge 314 of the side wall 306 has a first straight edge 345, an arcuate edge 346, and a second straight edge 348. The side edge seal member 320 has a first linear seal portion 350, an arc-shaped seal portion 352, and a second linear seal portion 354.

The side edge seal member 320 preferably has an outer surface formed of an inclined surface which is provided so as to cut the area where the outer surface of the first linear seal portion 350 and the outer surface of the circular arc shaped seal portion 352 meet 356).

10 to 12, the vacuum box 300 has these components, although the gasket, the elongated platen, the short press plate, the screw and the handle are omitted.

According to the vacuum box 300 of the welding portion inspecting apparatus of the third embodiment, when the vacuum box 300 is installed in the inspection target portion, the end edge seal member 314 is inserted into the three water- (Parallel water-cooling tube) 10 and the fins 12 between these water-cooling tubes 10. The side edge seal member 316 is brought into contact with the water-cooled pipe 10 at both ends of the three water-cooled pipes 10 and the side edge seal member 320 is brought into contact with the pin (second pin) (Cross-water-cooled tube) 10 of the bottom water-cooled wall 2 as shown in Fig. Further, the ceiling edge seal member 324 comes into contact with the water-cooling pipe 10 of the bottom water-cooling wall 2. [

The method of using the welding portion inspection apparatus of the boiler water-cooling wall of the third embodiment is the same as that of the first embodiment.

According to the welding portion inspection apparatus for the boiler water cooling wall of the third embodiment, as in the case of the first embodiment, regardless of the irregularities in the inspection target portion of the boiler water cooling wall 1, It is possible to reliably detect the penetrating defects of the wafer W.

According to the welding portion inspecting apparatus for the boiler water cooling wall of the third embodiment described above, even if the welded portion 16 protrudes like the first embodiment, the first straight seal portions 324 and 350 The welded portion 16 and the periphery thereof are surely sealed, so that the vacuum chamber 300 forms an airtight vacuum chamber.

According to the welding portion inspecting apparatus for the boiler water-cooling wall of the third embodiment described above, since the vacuum box 300 forms the vacuum chamber together with the two walls called the bottom water-cooling wall 2 and the side water-cooling wall 5, It is possible to reliably detect defective penetration of the welded portion 16 between the pin 302 for the corners and the water cooling pipe 10 of the side water cooling wall 5 and the fin 12. [ That is, in the vicinity of the water-cooling pipe (parallel water-cooling pipe) 10 of one wall constituting the angle of the boiler water-cooling wall 1 in the portion to be inspected of the boiler water-cooling wall 1, Even if a water-cooled tube 10 is present, the vacuum chamber 300 can be formed in a vacuum chamber with a simple structure.

The present invention is not limited to the above-described first to third embodiments, but includes modifications to each of the first to third embodiments, and combinations of these forms.

For example, in the vacuum box 100 according to the first embodiment, the end wall 114 and the end edge seal member 130 extend over the two water-cooled pipes 10, but three or more water- 10). That is, the vacuum box 100 may form a vacuum chamber together with three or more water-cooled pipes 10 on both sides of the fin 12. [

However, as the end wall 114 and the end edge seal member 130 become longer due to dimensional tolerance and warpage of the water-cooled pipe 10 and the pin 12, the sealability decreases. Therefore, the end wall 114 and the end edge It is preferable that the seal member 130 extends over at most three water-cooled pipes 10, and it is more preferable that the seal member 130 extends over two water-cooled pipes 10.

Claims (6)

A weld inspection apparatus for a boiler water-cooling wall comprising a plurality of parallel water-cooling pipes arranged in parallel and a fin closing a gap between adjacent parallel water-cooling pipes by welding,
A vacuum box in which a part of at least two parallel water-cooled tubes adjacent to each other and a part of the fin constitute a part to be inspected and forms a vacuum chamber together with the part to be inspected;
And an exhaust device connected to the vacuum box,
In the vacuum box,
A transparent window portion,
Two of the two parallel water-cooled pipes, two sidewalls respectively disposed along the corresponding parallel water-
At least one end wall disposed so as to intersect the longitudinal direction of the parallel water-
A side edge seal member mounted on an edge of the side wall for sealing between the edge of the side wall and the parallel water-
And an end edge seal member mounted on an edge of the end wall and sealing an edge between the end wall and the parallel water-
Wherein the edge of the end wall
A linear edge portion along the fin,
And an arc-shaped edge portion along the parallel water-cooled tube,
The end edge seal member
A linear seal portion mounted on the linear edge portion,
And an arc-shaped seal portion mounted on the edge portion of the arcuate shape
Inspection system for welding part of boiler water cooling wall. The method according to claim 1,
And the thickness of the linear sealing portion is larger than the thickness of the arc-shaped sealing portion
Inspection system for welding part of boiler water cooling wall. 3. The method according to claim 1 or 2,
Wherein the parallel water-cooling pipe extends linearly in an inspection target portion of the boiler water-cooling wall,
Wherein the vacuum box is spaced apart from each other in the longitudinal direction of the parallel water-cooled tube and has two end walls each of which is fitted with the end-
Inspection system for welding part of boiler water cooling wall. 3. The method according to claim 1 or 2,
Wherein the parallel water-cooled pipe has an arcuate curved portion in the longitudinal direction at an inspection target portion of the boiler water-cooling wall,
In the vacuum box,
Two end walls separated from each other in the lengthwise direction of the parallel water-cooled tube and each equipped with the end edge seal member,
A sidewall having an edge having an arc-shaped curved portion along the parallel water-
And a side edge seal member mounted along the edge of the side wall.
Inspection system for welding part of boiler water cooling wall. A cross water-cooling pipe extending in a direction intersecting with the parallel water-cooling pipe in which gaps between adjacent ones of the pipes are closed by the pin, and the parallel water-cooling pipe and the gap constituted by the fins, It is used when it is occluded,
In the vacuum box,
One end wall spaced apart from the second fin in the lengthwise direction of the parallel water-cooled tube and equipped with the end edge seal member,
A sidewall extending between the end wall and the intersecting water cooling wall,
A ceiling wall coupled with the end wall and the side wall,
A seal member which includes the end edge seal member and the side edge seal member and seals between the side wall and the parallel water cooling pipe, the cross water cooling pipe, and the second fin,
And a seal member for sealing between the ceiling wall and the cross water cooling pipe
Inspection system for welding part of boiler water cooling wall. A weld inspection apparatus for a boiler water-cooling wall comprising a plurality of parallel water-cooling pipes arranged in parallel and a fin closing a gap between adjacent parallel water-cooling pipes by welding,
A weld inspection apparatus for a boiler water-cooled wall according to any one of claims 1 to 5,
A foaming liquid is applied to a portion to be inspected of the water cooling wall of the boiler,
The vacuum chamber is formed by the vacuum box,
The pressure in the vacuum chamber is lowered by using an exhaust device connected to the vacuum box,
And visually confirming whether or not foaming of the foamed liquid in the vacuum box is present.
Inspection method of welding part of water cooling wall of boiler.

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