KR102621686B1 - Clamp support for total leakage rate test of entrance door of containment building - Google Patents

Abstract

The present invention relates to a clamp support for testing the comprehensive leak rate of the entrance door of a containment building. More specifically, in the process of installing a clamp that fixes the door chamber and the inner door to each other for the comprehensive leak rate test of the door of the containment building, the clamp of a heavy object is used. This relates to a clamp support for the comprehensive leak rate test of the entrance door of a containment building that can support the work convenience and work safety of workers.
For this purpose, a bolt hole is formed in each of the door chamber and the inner door, a clamp is provided that is fastened to the bolt hole to secure the door chamber and the inner door to each other, a support surface capable of supporting the clamp is provided, and the support is provided. A body including a coupling portion bent from a surface; and a magnetic means provided so as to be installed at the coupling portion of the body, wherein the magnetic force means is screwed to the coupling portion. A clamp support for comprehensive leak rate testing of doors of a containment building is provided.

Description

Clamp support for total leakage rate test of entrance door of containment building}

The present invention relates to a clamp support for comprehensive leak rate testing of doors in a containment building, and more specifically, to a clamp support for comprehensive leak rate testing of doors in a containment building that improves the convenience and safety of clamp fixation work for comprehensive leak rate testing. It's about.

In general, the containment building of a nuclear power plant forms multiple protective walls based on nuclear fuel to prevent radiation leakage, and each protective wall is thoroughly managed through periodic leak rate tests. As shown in FIG. 1, a protective wall is provided to the reactor pressure vessel (V1) to prevent radioactive materials from leaking. At this time, a containment vessel (V2) is provided around the reactor pressure vessel (V1), forming a protective wall with steel plates approximately 6 mm thick, and a 120 cm thick reinforced concrete structure (V3) serves as the final protective wall to completely block the leakage of radioactive materials. I do it.

Meanwhile, in preparation for a serious accident occurring in the primary system inside the containment vessel (V2), a test will be conducted to check whether the leakage of radioactive materials to the outside through the containment vessel (V2) is within the allowable limits. At this time, the current leak tolerance verification test is to check leakage from the inner wall of the nuclear power plant through the Integrated Leakage Rate Test (ILRT) and the Local Leakage Rate Test (LLRT). At this time, the comprehensive leak rate test of the containment door is a necessary task for power plant output operation, start-up, high temperature standby, high temperature shutdown, and securing the integrity of the containment building. Perfect fixation of the door during the test is a very important factor in evaluating the comprehensive leak rate. In order to completely fix the door, as shown in FIG. 2, a clamp 30 and a fixing bolt 40 are provided to maintain airtightness between the door chamber 10 and the inner door 20. . That is, by connecting the 'L' shaped clamp 30 between the door chamber 10 and the inner door 20 and fastening it using the fixing bolt 40, the containment building entrance door for the comprehensive door leak rate test is installed. Fixing is complete.

However, in the above-mentioned door fixing work, if the worker fixes the clamp 30 to the door while directly holding it, not only is it difficult to hold the heavy iron ball of the clamp 30, but it is also prone to fractures etc. when the clamp 30 falls. There is a high risk of safety accidents occurring. In other words, since the clamp 30 is provided by being manufactured from a heavy iron block, there is a problem in that it is difficult for workers to easily handle the clamp 30.

Republic of Korea Registration No. 10-1494166

The present invention was devised to solve the above-described problems, and the purpose of the present invention is to provide a comprehensive entrance door to a containment building that can support a heavy object clamp on one side of the door, thereby increasing the safety and convenience of clamp installation work. The purpose is to provide clamp support for leak rate testing.

In order to achieve the above object, the present invention provides a bolt hole formed in each of the door chamber and the inner door, a clamp fastened to the bolt hole to secure the door chamber and the inner door to each other, and a device capable of supporting the clamp. A body that provides a support surface and includes a coupling portion bent from the support surface; and a magnetic means provided so as to be installed at the coupling portion of the body, wherein the magnetic force means is screwed to the coupling portion. A clamp support for comprehensive leak rate testing of doors of a containment building is provided.

At this time, it is installed so that it can be rotated in the body, and includes a removal means that can easily separate the coupling part magnetically attached to the door by applying a force that widens the gap between the coupling part and the door chamber through rotation. desirable.

Additionally, a detachable portion provided to be detachably attached to the body; It is preferable that a support position guide means is further provided, which extends from the detachable portion to one side and includes a guide piece in which a guide hole corresponding to the bolt hole is formed.

The clamp support for comprehensive leak rate testing of entrance doors of containment buildings according to the present invention has the following effects.

First, the present invention does not require the worker to fix the door while holding the clamp of a heavy object, which not only improves the convenience of work, but also prevents safety accidents due to the clamp falling. .

Second, the present invention has the effect of shortening work preparation and work time by simplifying the configuration for clamp support and enabling easy attachment and detachment from the door using magnetic force.

Figure 1 is a cross-sectional view schematically showing the containment building of a nuclear power plant.
Figure 2 is a schematic diagram showing a clamp coupled to the entrance door of a nuclear power plant containment building.
Figure 3a is a diagram showing the body and guide means of the clamp support for comprehensive leak rate testing of the entrance door of the containment building separated according to a preferred embodiment of the present invention.
Figure 3b is a diagram showing a guide means for a clamp support for testing the comprehensive leakage rate of the entrance door of a containment building according to a preferred embodiment of the present invention.
Figure 4 is a diagram showing the body and guide means of the clamp support for testing the overall leakage rate of the entrance door of the containment building combined according to a preferred embodiment of the present invention.
Figure 5 is a view showing the bottom of a clamp support for testing the comprehensive leak rate of the entrance door of a containment building according to a preferred embodiment of the present invention.
Figures 6a and 6b are views showing the side of a clamp support for testing the overall leakage rate of the entrance door of a containment building according to a preferred embodiment of the present invention, and are views showing the action of the removal means.
Figure 7 is a diagram showing a state in which a clamp support for testing the comprehensive leakage rate of the entrance door of a containment building according to a preferred embodiment of the present invention is attached to the door and supports the clamp.

The terms or words used in this specification and claims are not to be construed limited to their ordinary or dictionary meanings, and the inventor can appropriately define the concept of terms in order to explain his or her invention in the best way. It must be interpreted based on the meaning and concept consistent with the technical idea of the present invention.

Hereinafter, with reference to the attached FIGS. 3A to 7, a clamp support (hereinafter referred to as 'clamp support') for testing the comprehensive leakage rate of the entrance door of a containment building according to a preferred embodiment of the present invention will be described.

The clamp support supports the heavy clamp 30 from the bottom to improve operator convenience and safety when fixing the clamp to the door of the containment building.

As shown in FIG. 3A, the clamp support includes a body 100, a magnetic force means 200, a support position guide means 300, and a removal means 400.

The body 100 is a structure that supports the clamp 30 at the lower part of the clamp 30 and includes a support surface 110 and a coupling portion 120. The support surface 110 is a portion where the heavy clamp 30 is directly supported, and is preferably formed as a flat surface. The coupling portion 120 is a component for coupling to the door, and is a portion where the magnetic means 200, which will be described later, is installed. The coupling portion 120 is preferably formed by bending vertically from the support surface 110. At this time, a screw hole 121 is formed in the coupling portion 120 as shown in FIG. 3A. The screw hole 121 is configured for screw coupling of the magnetic means 200. The number of screw holes 121 corresponds to the number of magnetic means 200. Additionally, an opening groove 122 opening downward is formed at the lower end of the coupling portion 120. The opening groove 120 is configured so as not to interfere with the downward rotation of the rotating arm of the removal means 400, which will be described later. Meanwhile, it is preferable that reinforcing ribs 130 connecting the coupling portion 120 and the support surface 110 are formed on both sides of the body 100. The reinforcing ribs 130 increase the rigidity of the body 100 and can also be used as a handle.

The magnetic means 200 serves to attach the body 100 to the door and is installed in the coupling portion 120. The magnetic means 200 is preferably provided as a permanent magnet. It is preferable that the magnetic force means 200 be plural, and are evenly installed throughout the coupling portion 120. At this time, a screw portion (stud bolt) 210 is screwed to the magnetic force means 200, and the screw portion 210 is screwed to the screw hole 121 of the coupling portion 120. At this time, since the magnetic means 200 is screwed to the coupling part 120, the body 100 can be in close contact with the magnetic means 200 through the screw rotation of the screw part 210 regardless of the flatness of the door. .

The support position guide means 300 serves to guide the installation position of the body 100. The body 100 is configured to support the clamp 30 from the bottom, and it is important to be positioned accurately around the location where the clamp 30 is installed, that is, the location where the bolt hole of the door chamber 10 is formed. In particular, since the body 100 is attached to the door by the high magnetic force of the magnetic means 200, it is not easy to attach or detach it, so it is important to determine the initial attachment position of the body 100. The support position guide means 300 includes a detachable portion 310 and a guide piece 320, as shown in FIGS. 3A and 3B. The detachable portion 310 is configured to be detachable from the body 100 and is provided so that it can be slidably coupled in the thickness direction of the support surface 110. For this purpose, a slide groove 311 corresponding to the thickness of the body 100 is formed in the detachable part 310. Additionally, a fixing hole 312 penetrating the slide groove 311 is formed in the detachable part 310. The fixing hole 312 is used to restrict the movement of the detachable part 310 when the detachable part 310 is coupled to the support surface 110, and is provided so that a bolt can be screwed into it. The guide piece 320 extends vertically upward from the detachable part 310, and a guide hole 321 corresponding to the bolt hole of the door chamber 10 is formed. By being coupled to the support surface 110, the support position guide means 300 of this configuration can guide the attachment position of the body 100 to the bolt hole, so that the worker can easily recognize the attachment position of the body 100. can do.

The removal means 400 is a configuration that allows the body 100 attached to the door chamber 10 to be easily removed, and applies a force to separate the body 100 from the door chamber 10 through rotation. I order it. That is, the removal means 400 is provided to remove the body 100 from the door chamber 10 using the principle of a lever. As shown in FIG. 5 , the removal means 400 includes a rotating arm 410 installed on both sides of the body 100, a hinge portion 420, and a pushing portion 430. The rotating arm 410 is axially coupled to the hinge portion 420 so that it can be installed on both sides of the body 100 through the hinge portion 420, and is provided in the form of a bar. At this time, the hinge portion 420 is installed on the inner surface of the coupling portion 120, and the rotating arm 410 is axially coupled to the hinge portion 420 so that its end can be positioned in the opening groove 122. The pushing unit 430 interferes with the door chamber 10 due to the rotation of the rotating arm 410 and serves to separate the body 100 from the door chamber 10 through a reaction force. The pushing part 430 is installed at the end of the rotating arm 410, and is installed to protrude forward of the coupling part 120 compared to the magnetic force means 200, as shown in FIGS. 5 and 6b. At this time, the pushing unit 430 is preferably provided as a bearing, but is not limited to the bearing. When the pushing part 430 is provided as a bearing, the body 100 can be flexibly removed by reducing friction with the door chamber 10 when removing the body 100.

Hereinafter, the clamp installation operation using the clamp support configured above will be described.

The worker couples the support position guide means 300 to the body 100 in order to determine the attachment position of the body 100. The support position guide means is formed by coupling the detachable part 310 of the support position guide means 300 to the support surface 110 and fastening the bolt to the fixing hole 312 so that the end of the bolt is pressed against the support surface 110. (300) is coupled to the body (100). Thereafter, the worker aligns the guide hole 321 of the support position guide means 300 with the bolt hole of the door chamber 10 and then attaches the body 100 to the door chamber 10. The body 100 is attached to the door chamber 10 by magnetic means 200. At this time, the operator rotates the screw portion 210 to bring the coupling portion 120 of the body 100 and the magnetic force means 200 into close contact. At this time, as shown in FIG. 6A, the removal means 400 prevents the pushing part from protruding forward beyond the magnetic force means 200 as the rotating arm 410 rotates upward around the hinge part 420. That is, since the pushing unit 430 may protrude forward compared to the magnetic force means 200, when the body 100 is attached to the door chamber 10, the pushing unit 430 is rotated through the rotation of the rotating arm 410. ) is located inside the magnetic means (200).

When the body 100 is attached to the door chamber 10 in this way, the operator separates the support position guide means 300 and places the clamp 30 on the support surface 110. At this time, since the fastening hole (not shown) formed in the clamp 30 and the bolt hole (not shown) formed in the door chamber 10 are in the same height, the worker holds the clamp 30 on the support surface 110. While moving, the fastening hole of the clamp (30) is completely aligned with the bolt hole of the door chamber (10).

Next, the worker screws the fixing bolt 40 through the fastening hole of the clamp 30 into the bolt hole, so that the clamp 30 is fully coupled to the doors 10 and 20 as shown in FIG. 7. do.

Meanwhile, when the comprehensive leak rate test of the door is completed, the worker loosens the fixing bolt 40 and separates the clamp 30 from the doors 10 and 20. Thereafter, the worker removes the body 100 from the door chamber 10 by force. However, at this time, if it is difficult to smoothly separate the body 100 from the door chamber 10 due to the magnetic force of the magnetic means, the worker rotates the rotating arm 410 downward to separate the body 100 from the door chamber 10. Separate. At this time, as the operator rotates the rotating arm 410 downward, as shown in FIGS. 6A and 6B, the pushing part 430 rises and protrudes forward of the body 100 rather than the magnetic force means 200 to generate a reaction force. During this action, the body 100 is easily separated from the door chamber 10.

As explained so far, the clamp support for testing the comprehensive leakage rate of the entrance door of a containment building according to the present invention can support a clamp made of a heavy iron ball from below, thereby improving the operator's work convenience and work safety.

Although the present invention has been described in detail with respect to the described embodiments above, it is obvious to those skilled in the art that various changes and modifications are possible within the technical scope of the present invention, and such changes and modifications naturally fall within the scope of the appended patent claims.

100: body 110: support surface
120: coupling part 121: screw hole
122: opening groove 130: reinforcing rib
200: magnetic means 210: screw portion
300: Support position guide means 310: Detachable part
311: Slide groove 312: Fixing hole
320: Guide 321: Guide Ball
400: Removal means 410: Hoedongam
420: Hinge part 430: Pushing part

Claims (3)

A body that provides a support surface for supporting the clamp when installing a clamp that fixes the door chamber and the inner door to each other, and includes a coupling portion bent from the support surface;
Magnetic force means provided so that they can be installed at the coupling portion of the body; and
It is installed so that it can be rotated on the body, and includes a removal means to easily separate the coupling part magnetically attached to the door by applying a force that widens the gap between the coupling part and the door chamber through rotation. Clamp support for comprehensive leak rate testing of entrance doors of containment buildings.
delete According to paragraph 1 ,
A detachable portion provided to be attachable to and detachable from the body;
Comprehensive leakage of the entrance door of the containment building, characterized in that a support position guide means is further provided, which extends from the detachable part to one side and includes a guide piece formed with a guide hole 321 corresponding to the bolt hole of the chamber 10. Clamp support for rate testing.

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