KR20220158527A - Radiation shielding wall - Google Patents

Abstract

A radiation shielding wall capable of modularization is disclosed. According to the present invention, the radiation shielding wall is formed by: preparing a lead plate joint standard panel for attaching a lead plate thinner than a gypsum board to one surface of the gypsum board standardized by a certain size; disposing studs in a vertical or horizontal direction at an interval suitable for a width or height of the lead plate joint standard panel at a construction site; and fixing the lead plate joint standard panel or a lead plate joint piece panel, obtained by cutting it, to a stud by a screw so as to form a wall.

Description

Radiation shielding wall {RADIATION SHIELDING WALL}

The present invention relates to a radiation shielding wall, and more particularly, in a medical equipment room using radiation, such as an X-Ray room in a hospital, or a test equipment room using radiation, such as a non-destructive testing room in a research institute, to prevent radiation from leaking to the outside through the wall. It is about a radiation shielding wall in

Korean Utility Model Registration No. 20-0199128 discloses a first wall panel made of a stud having a predetermined width and height and a plurality of gypsum boards fixedly installed on both sides of the stud and installed vertically, and a panel for the first wall A plurality of lead plates attached to the outer gypsum board of the panel so that their mutual edges overlap by a predetermined width and fixed to the studs along the overlapping edges by coupling screws whose heads are covered by lead caps, and vertically adhered to the outer surface of the lead plates A shielding wall for low-level radiation composed of a second wall panel fixedly installed is disclosed.

In the above design No. 20-0199128, a single gypsum board covering the entire wall is connected by fixing a plurality of lead plates cut smaller than the gypsum board to a gypsum board of a large area one by one by screwing or attaching with adhesive. In particular, when fixing the lead plate to the gypsum board with screws, put a lead cap on the head of the screw to block radiation leakage through the screw penetration part of the lead plate, and when attaching the lead plate to the gypsum board with adhesive, attach lead tape to the joint between the lead plates. do.

However, the width and height of the radiation shielding wall to be constructed on site vary. When attaching small pieces of lead board to a large gypsum board covering the entire wall, vertical studs for fixing the lead board must be increased and densely arranged by the number of lead board pieces, and screw holes penetrating the lead board or joints between lead boards ) occurs too much, which increases the possibility of radiation leakage. In addition, since the gypsum board covers the studs during screw-fixed construction, it is difficult to accurately fix the lead plate to the studs with screws. In the case of adhesive fixed construction, since the gypsum board is first attached to the stud and then the lead plate is attached to the gypsum board, there is a problem in that the adhesive force between the stud and the gypsum board is weak and the construction period is prolonged. In addition, according to the above design No. 20-0199128, since the lead plate is exposed to the outside, a gypsum board wall must be additionally constructed on the outside of the lead plate. This increases the construction cost and construction period.

In Korean Utility Model Registration No. 20-0243940, in order to solve the problem that it is difficult to accurately fix the lead plate to the stud with screws because the gypsum board covers the stud during screw-fixed construction, a piece of lead plate is directly attached to the stud without the gypsum board intervening. A method of fixing with screws is disclosed. However, this shielding wall also needs to increase the vertical studs for fixing the lead plate by the number of lead plate pieces and densely arrange them, and there are too many screw holes penetrating the lead plate, so there is a high possibility of radiation leakage. In addition, this method also requires additional construction of a gypsum board wall on the outside of the lead plate because the lead plate is exposed to the outside as in the design of No. 20-0199128 above. This becomes a factor that increases construction cost and construction period.

Korea Registered Utility Model Registration No. 20-0199128 (registration date: 2000.07.28) Korean Registered Utility Model Registration No. 20-0243940 (registration date: 2001.08.09)

The present invention has been made to solve the above-mentioned problems of the conventional radiation shielding wall, and the first problem to be solved by the present invention is to provide a radiation shielding wall that can effectively block radiation while quickly proceeding with the shielding wall construction there is

A second problem to be solved by the present invention is to provide a radiation shielding wall that can shorten the construction period by manufacturing the radiation shielding wall as a module in a factory and only assembling it at a construction site.

The problems of the present invention described above are to provide a lead plate joint standard panel in which a lead plate thinner than the gypsum board is attached to one side of a gypsum board standardized to a certain size in a radiation shielding wall, and at the construction site, the width or width of the lead plate joint standard panel It can be solved by arranging studs in a vertical or horizontal direction at intervals suitable for the height, and forming a wall by fixing the lead plate joint standard panel or the lead plate joint piece panel cut to the stud with screws.

It is preferable to attach a lead tape capable of covering the connection surface and the screw head to the joint of the lead plate joint standard panel or the lead plate joint piece panel.

A plurality of lead plate joint standard panels or lead plate joint piece panels are connected to form a first wall, and a plurality of lead plate joint standard panels or lead plate joint piece panels are connected outside the first wall to form a second wall so as to overlap. The joint of the lead plate joint standard panel or the lead plate joint piece panel is formed at a point displaced from the joint of the first wall, so that radiation leakage at the joint of the first wall is prevented from the second wall. can block it

According to the present invention having the above configuration, a lead plate joint standard panel in which a lead plate thinner than the gypsum board is attached to one side of the gypsum board standardized to a certain size according to the wall area determined in the design drawing or specification, and the lead plate joint cut into a certain size Sculpture panels are prefabricated at the factory, studs are placed vertically or horizontally at intervals suitable for the width or height of the lead plate joint standard panel at the construction site, and lead plate joint standard panel is suitable for the width and width of the radiation shielding wall required. It is possible to quickly form a wall by selecting as it is or selecting a lead plate joint piece panel cut from it, and fixing the lead plate joint standard panel or the edge of the lead plate joint piece panel with screws in a state in contact with the stud. At this time, since the studs are installed at intervals suitable for the width or height of the lead plate joint standard panel, all or part of the edge of the lead plate joint standard panel or lead plate joint piece panel is always in contact with the study, and fastened with screws along the edge connection Since the lead plate joint standard panel or the lead plate joint piece panel can be fixed to the stud, there is an effect that the radiation shielding wall construction can proceed very quickly.

In addition, according to the present invention, when the lead plate is fixed inwardly, since the gypsum board is exposed on the outside, there is no need to form a separate gypsum board wall outside the lead plate. If necessary, the outer surface can be reinforced by bonding the gypsum board to the outside of the lead plate joint standard panel or the lead plate joint piece panel in close contact.

In addition, according to the present invention, by attaching a lead tape capable of covering the connection surface and the screw head to the joint of the lead plate joint standard panel or the lead plate joint piece panel, it is possible to effectively shield radiation leaking through the screw penetration portion or the joint portion. There are possible effects.

In addition, according to the present invention, when high-level radiation shielding is required, a plurality of lead plate joint standard panels or lead plate joint piece panels are connected to form a first wall, and a plurality of lead plate joint standard panels or lead plate joint piece panels are connected outside the first wall. While forming the second wall so that it overlaps, the joint of the lead plate joint standard panel or the lead plate joint piece panel of the second wall is formed at a point displaced from the joint of the first wall, so that the first wall Since radiation leakage can be blocked at the joint of the second wall, there is an effect of quickly and conveniently constructing a high-level radiation shielding wall.

1 is an exploded perspective view showing a lead plate joint standard panel according to an embodiment of the present invention by separating it into a gypsum board and a lead plate.
2 is a perspective view of a lead plate joint standard panel completed by joining the gypsum board and lead plate shown in FIG.
3 is a perspective view of a cutting process showing a method of cutting the lead plate joint standard panel shown in FIG. 2;
4 is a perspective view of a lead plate joint piece panel obtained by cutting a lead plate joint standard panel in the longitudinal direction according to the method shown in FIG. 3;
5 is a perspective view of a lead plate joint piece panel obtained by cutting the lead plate joint standard panel in the transverse direction according to the method shown in FIG.
6a is a construction process diagram showing a state in which a lead plate joint standard panel and a lead plate joint piece panel according to the present invention are fixed to a stud by screws.
6B is a partially enlarged view of part A of FIG. 6A.
FIG. 7A is a construction process diagram illustrating a state in which lead tape is attached to cover the connection surface of the connection part and the screw head in FIG. 6A.
Figure 7b is a partially enlarged view of part B of Figure 7a.
8a is a construction process diagram showing a state in which a gypsum board is further laminated and attached on a wall formed of a lead plate joint standard panel and a lead plate joint piece panel in FIG. 7a.
Figure 8b is a partially enlarged view of part C of Figure 8a.
9A is a construction process diagram showing a state in which a second wall is formed by further stacking the lead plate joint standard panel and the lead plate joint piece panel in an alternate manner on the first wall formed of the lead plate joint standard panel and the lead plate joint piece panel in FIG. 7A. .
9B is a partially enlarged view of part D of FIG. 9A.
FIG. 10 is a perspective view simultaneously showing a connection between a first wall and a second wall of the radiation shielding wall shown in FIG. 9A.

Hereinafter, specific embodiments of the radiation shielding wall according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 and 2, one of the characteristics of the present invention is that, in constructing a radiation shielding wall, on one side of a gypsum board (1) standardized to a certain size, a lead plate (3) thinner than the gypsum board (1). ) It is in the point of providing and using the lead plate joint standard panel 5 attached.

Prior to the construction of the radiation shielding wall, a lead plate joint standard panel (5) with a thin lead plate (3) attached to the entire surface of the standardized gypsum board (1) selected according to the width, height, shape, etc. of the radiation shielding wall required by the design drawing or specification. ) is prepared and used. In attaching the gypsum board 1 and the lead plate 3, an adhesive or double-sided tape can be used.

The lead plate joint standard panel 5 can be manufactured in various lengths and widths. As another option, the lead plate joint standard panel 5 can be manufactured with a length and width that meets the KS standard (900mm x 1800mm), or a length and width that meets other building-related standards. The thickness of the gypsum board (1) may be 7.50 mm or more. The thickness of the lead plate 3 attached to the gypsum board 1 can be selected from various thicknesses such as 0.8 mm, 1.0 mm, 1.2 mm, and 1.5 mm according to the level of radiation to be shielded.

3 to 5, the thickness of the lead plate 3 of the lead plate joint standard panel 5 is less than 1/5 of the thickness of the gypsum board 1, so that the lead plate 3 and the gypsum board 1 are At the same time, it is desirable to be able to cut with a circular saw. As shown in FIG. 4 or 5, the lead plate joint piece panels 7a and 7b manufactured by cutting in this way can be usefully used together with the lead plate joint standard panel 5 to form a radiation shielding wall. The lead plate joint standard panel has a thickness within 1/5 of the gypsum board thickness so that the lead plate and the gypsum board can be simultaneously cut by a circular saw. As in the present invention, when the lead plate 3 and the gypsum board 1 can be cut at the same time, the lead plate joint piece panels 7a and 7b of the size required by the design drawings or specifications can be easily manufactured at the factory or construction site. have.

Another feature of the present invention is to arrange the studs 9 in a vertical or horizontal direction at intervals suitable for the width or height of the lead plate joint standard panel 5 at the construction site, and to cut the lead plate joint standard panel 5 or it. It is to form a wall by fixing one lead plate joint piece panel (7a, 7b) to the stud (9) with screws. Horizontal studs 9 may be further provided below and above the vertical studs 9 . On both sides of the wall, an iron frame (not shown in the drawing) for receiving and supporting the wall may be further provided.

In this way, according to the present invention, the lead plate joint standard panel 5 and the lead plate joint piece panels 7a and 7b are modularized and manufactured in advance at the factory according to the wall area determined by the design drawing or specification, and the lead plate joint standard at the construction site A state in which the edges of the lead plate joint standard panel 5 or the lead plate joint piece panels 7a and 7b are in contact with the stud 9 after the studs 9 are arranged in a vertical or horizontal direction at intervals suitable for the width or height of the panel By fixing with screws 11 in , it is possible to rapidly form a radiation blocking wall. At this time, since the studs 9 are installed at intervals suitable for the width or height of the lead plate joint standard panel 5, all or part of the edges of the lead plate joint standard panel 5 or the lead plate joint piece panels 7a and 7b are always It is in contact with the study (9), and the lead plate joint standard panel (5) or the lead plate joint piece panel (7a, 7b) can be fixed to the stud (9) by quickly fastening the screw (11) along the edge connection, so radiation shielding It has the effect of being able to proceed with wall construction very quickly.

As shown in FIGS. 6A and 6B, the lead plate joint standard panel 5 or the lead plate joint piece panels 7a and 7b are fastened to the stud 9 by a screw 11.

As shown in FIGS. 7A and 7B, a lead tape 13 for covering the connection surface and the screw head is applied to the joint of the lead plate joint standard panel 5 or the lead plate joint piece panel 7a and 7b. can be attached Through this, it is possible to effectively shield radiation leaking through the screw through portion or the connection surface of the connecting portion.

When the lead plate 3 is fixed facing the inside, since the gypsum board 1 is exposed on the outside, there is no need to form a separate gypsum board wall outside the lead plate, but as shown in FIGS. 8a and 8a, if necessary Accordingly, the outer surface can be reinforced by further bonding the gypsum board 1 to the outside of the lead plate joint standard panel 5 or the lead plate joint piece panels 7a and 7b in close contact.

As shown in Figures 9a and 9b, another feature of the present invention is that the radiation shielding wall is formed as a double wall using the lead plate joint standard panel 5 or the lead plate joint piece panels 7a and 7b, while the inner side The connection of the wall is blocked by the body surface of the outer wall so that it can be used as a high-level radiation shielding wall.

To this end, a plurality of lead plate joint standard panels 5 or lead plate joint piece panels 7a and 7b are connected to form a first wall, and the lead plate joint standard panel 5 or lead plate joint piece panel is formed on the outside of the first wall. A plurality of (7b, 7c) is connected to form the second wall to overlap, but the joint of the lead plate joint standard panel (5) or the lead plate joint piece panel (7b, 7c) of the second wall is of the first wall. It is formed at a point offset from the joint of the lead plate joint standard panel 5 or the lead plate joint piece panel 7a, 7b.

In FIG. 10, the wall to which the lead tape 13 is attached represents the first wall, and the wall marked with a solid line represents the second wall. The connecting portion of the first wall is entirely covered by the body surface of the lead plate joint standard panel 5 or the lead plate joint piece panels 7b and 7c constituting the second wall.

In this configuration, radiation leakage at the joint of the first wall is blocked by the second wall, and radiation is double-blocked, so that high-level radiation can be shielded.

1: gypsum board
3 : lead plate
5: lead plate joint standard panel
7a, 7b, 7c: lead plate joint piece panel
9 : Stud
11 : screw
13: lead tape

Claims (3)

In the radiation shielding wall,
Prepare a lead plate joint standard panel to which a lead plate thinner than the gypsum board is attached to one side of a gypsum board standardized to a certain size, and arrange studs in a vertical or horizontal direction at intervals suitable for the width or height of the lead plate joint standard panel at the construction site , A radiation shielding wall characterized in that the wall is formed by fixing the lead plate joint standard panel or the lead plate joint piece panel cut to the stud with screws.
According to claim 1,
A radiation shielding wall, characterized in that a lead tape capable of covering the connection surface and the screw head is attached to the joint of the lead plate joint standard panel or lead plate joint piece panel.
According to claim 1,
A plurality of lead plate joint standard panels or lead plate joint piece panels are connected to form a first wall, and a plurality of lead plate joint standard panels or lead plate joint piece panels are connected outside the first wall to form a second wall so as to overlap. The joint of the lead plate joint standard panel or the lead plate joint piece panel is formed at a point displaced from the joint of the first wall, so that radiation leakage at the joint of the first wall is prevented from the second wall. A radiation shielding wall, characterized in that blocked.

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