KR200326255Y1 - Sleeve Hydraulic Pressure Test Apparatus - Google Patents

Abstract

The present invention is a large perfusion hydraulic test device such as a sleeve, which is an entrance to a reactor containment building, and is suitable for a separate hydraulic test only for welds and is a passage of a reactor containment structure having a simple configuration and convenience for operation. The object is to provide a sleeve hydraulic test apparatus.

The present invention for achieving the above object is in the hydraulic pressure test apparatus for hydraulically testing the sleeve fixed to the end of the first sleeve 21 and the second sleeve 22, the first, second sleeve 10 And a hollow plate having an outer diameter equal to the inner diameter of 20, and positioned along the inner circumferential surfaces of the sleeves 10 and 20 on both sides along the welds 30 of the first and second sleeves 10 and 20, respectively. Two vertical sections 101 and a horizontal section 103 in the shape of a tube having a predetermined length, the two vertical sections 101 being welded and fixed at both ends thereof, the two vertical sections 101 and the horizontal sections Corresponding to the closed space 110 formed by the 103 and the sleeve 10, 20, the fluid is configured to be injected through the through-hole 120 formed in the sleeve 10, the inner surface of the horizontal portion 103 Technically, the stiffener 105 is welded and fixed along the inner circumferential surface of the horizontal portion 103.

The sleeve hydraulic test apparatus, which is a passage of the reactor containment structure of the present invention, can be performed more quickly than the hydraulic test performed over the entire length of the sleeve by closing the hydraulic test only by the portion where the first and second sleeves are fixed by welding. The labor and cost of testing can be reduced.

In addition, the hydraulic test apparatus of the present invention has the advantage that by reducing the quantity of the device required to perform the hydraulic test using a conventional hydraulic test apparatus, it is possible to reduce the cost required for the production of the hydraulic test apparatus.

Description

Sleeve Hydraulic Pressure Test Apparatus, the passageway of nuclear reactor containment building

The present invention relates to a large perfusion hydraulic test device such as a sleeve, which is an entrance to a reactor containment building, and in particular, a reactor containment building suitable for performing a hydraulic test only on a welded area and having a simple configuration and convenience in operation. To provide a sleeve hydraulic test apparatus that is a passage of the.

The reactor containment building is a concrete structure that maintains an airlock condition, and the air inside the containment building must not flow out. Accordingly, a passage through which a worker can pass is formed in such a containment building. The passage is formed with a large tubular sleeve in which a hollow is formed, and a door for opening and closing both ends of the sleeve, respectively.

These sleeves have a large tubular shape with an outer diameter of about 3446 mm, and these sleeves are made by welding steel sheets. The sleeve manufactured as described above is constructed through a hydraulic test, and the present invention relates to a hydraulic test apparatus for such a sleeve, that is, a large flow.

Conventionally, in order to perform the hydraulic pressure test of the sleeve, a hydraulic pressure test of the sleeve was performed by closing both ends of the sleeve using a plate-shaped cover or cap and filling water into the sleeve.

However, the conventional hydraulic test covers and caps have been difficult to apply to design and test for the following reasons when the diameter of the product or the pressure rises excessively.

For the hydraulic test of the sleeve or large tube, the thickness (T) of the cover is calculated by using Equation (1).

Where d is the diameter of the shell, C is 0.33, P is the design pressure, S is the maximum allowable stress of the material, and E is the joint efficiency.

Thus, the larger the inner diameter of the shell, the thicker the cover. In order to manufacture a cover that satisfies this thickness, the difference in weight from the product (sleeve or large perfusion) is increased, making welding and installation difficult.

In addition, since the cap cannot be calculated, the plate must be formed and used as a head.

The present invention is designed to solve the problems of the prior art as described above, in performing the hydraulic test of the sleeve or large perfusion of the reactor containment, the configuration of the hydraulic test device is simple and the manpower required for the installation and hydraulic test of the device And a sleeve hydraulic test apparatus which is a passage of a reactor containment which can reduce time.

1 is a perspective view showing a sleeve of a reactor containment building,

Figure 2 is a schematic diagram showing a process of the hydraulic pressure test using a hydraulic pressure test apparatus according to an embodiment of the present invention the welded portion of the sleeve shown in Figure 1,

3 is a cross-sectional view of the sleeve showing the hydraulic test procedure shown in FIG.

Explanation of symbols on the main parts of the drawings

10, 20: sleeve 21: first sleeve

22: second sleeve 30: welded portion

101: vertical portion 103: horizontal portion

105: stiffener 110: closed space

120: through hole

The present invention for achieving the above object is a hydraulic test apparatus for hydraulically testing a sleeve in which the ends of the first sleeve and the second sleeve are fixed by welding, having an outer diameter equal to the inner diameter of the first and second sleeves. A hollow plate is formed of two vertical portions located on both sides of the first and second sleeves along the inner circumferential surface of the sleeve and a tube having a predetermined length, and both ends of the two vertical portions. It is characterized in that it comprises a horizontal portion is welded fixed, the fluid is injected through the through hole formed in the sleeve corresponding to the closed space formed by the two vertical portion and the horizontal portion and the sleeve.

In addition, a stiffener is fixed to the inner surface of the horizontal portion of the present invention along the inner circumferential surface of the horizontal portion.

In the following, with reference to the accompanying drawings a preferred embodiment of the sleeve hydraulic test apparatus which is a passage of the reactor containment according to the present invention will be described in detail.

In the drawings, Figure 1 is a perspective view showing a sleeve of the reactor containment, Figure 2 is a schematic diagram showing the process of the hydraulic test using a hydraulic test apparatus according to an embodiment of the present invention the welded portion of the sleeve shown in FIG. 3 is a cross-sectional view of the sleeve showing the hydraulic test procedure shown in FIG.

As shown in FIG. 1, the sleeves 10 and 20 of the reactor containment are largely a PERSONNEL AIRLOCK SLEEVE (hereinafter referred to as 'first sleeve 10') and an emergency airlock sleeve. (EMERGENCY AIRLOCK SLEEVE) (hereinafter referred to as 'second sleeve 20') is formed by welding fixed. In FIG. 1, the outer circumferential surfaces of the first and second sleeves 10 and 20 are surrounded by the columns 11 and 21 to reinforce the sleeves 10 and 20. On the other hand, the inside of the sleeve (10, 20) is installed a hydraulic test apparatus according to the present invention.

As shown in FIG. 2, the hydraulic test apparatus 100 has an outer diameter and a predetermined width that are largely the same as the inner diameters of the sleeves 10 and 20, and the first and second sleeves centering on the welded portions of the sleeves 10 and 20. Two vertical portions 101 positioned at (10, 20) and welded to each other, and having an outer diameter and a predetermined length smaller than the inner diameters of the sleeves 10 and 20, and having both ends in the longitudinal direction with two vertical portions 101 And a horizontal portion 103 which forms a closed space 110 between the sleeves 10 and 20 and the two vertical portions 101 while being welded and fixed to each other.

Meanwhile, a through hole 120 is formed in one of the sleeves 10 corresponding to the closed space 110, and a gauge 130 for measuring water pressure and an injection jig 140 for injecting water are installed. do.

And the welded portion 30 of the sleeve 10, 20 subjected to the hydraulic test is subsequently cut and re-welded to form a sleeve, the through-hole 120 formed to install the gauge 130 is cut as described above It is formed on the side of the welded portion 30 to be removed and subsequently removed together with the welded portion 30.

In addition, the stiffener 105 is fixed to the inner circumferential surface of the horizontal portion 103 to prevent the horizontal portion from being deformed by hydraulic pressure.

As such, water is injected into the closed space 110 formed between the vertical portion 101, the horizontal portion 103, and the sleeves 10 and 20, and a hydrostatic test is performed through the gauge 130. In the state where the hydraulic test is completed, the vertical portion 101 cuts the welded portions to the sleeves 20 and 30 to remove the vertical portion 101 and the horizontal portion 103.

Then, after cutting both sides with respect to the welded portion 30 to which the first and second sleeves 10 and 20 are fixed, the cut surface is improved and re-welded to manufacture the sleeve.

As described in detail above, the sleeve hydraulic test apparatus, which is a passage of the reactor containment structure of the present invention, is performed more quickly than the hydraulic test carried out over the entire length of the sleeve by closing the first and second sleeves to be welded and fixed. In addition, it can reduce the manpower and cost for the hydraulic test.

In addition, the hydraulic test apparatus of the present invention has the advantage that by reducing the quantity of the device required to perform the hydraulic test using a conventional hydraulic test apparatus, it is possible to reduce the cost required for the production of the hydraulic test apparatus.

The technical idea of the sleeve hydraulic test apparatus, which is a passage of the reactor containment building of the present invention, has been described with the accompanying drawings, but this is only illustrative of the best embodiment of the present invention and is not intended to limit the present invention.

Claims (2)

In the hydraulic pressure test apparatus for hydraulically testing the sleeve in which the ends of the first sleeve and the second sleeve are welded and fixed, A disc having an outer diameter equal to an inner diameter of the first and second sleeves and having a hollow, the two vertical parts being respectively located along the inner circumferential surface of the sleeve on both sides along the welded portions of the first and second sleeves; A shape of a tube having a predetermined length, the two vertical portions comprising a horizontal portion welded at both ends thereof, And a fluid is injected through the through holes formed in the sleeve in correspondence to the closed space formed by the two vertical portions, the horizontal portion, and the sleeve. The method of claim 1, Hydraulic test device, characterized in that the stiffener is welded to the inner surface of the horizontal portion along the inner peripheral surface of the horizontal portion.