CN116591519A - An accelerator radiation shielding room - Google Patents

Abstract

The invention relates to an accelerator radiation shielding chamber, which comprises a shielding wall body and a shielding cover plate; the shielding wall body comprises a right angle area and a corner area, the main body area is formed by splicing a plurality of shielding splicing blocks, and the corner area is formed by splicing a plurality of corner splicing shielding blocks; the shielding cover plate covers the top of the shielding wall body, a shielding chamber is defined between the shielding cover plate and the shielding wall body, the shielding cover plate comprises an upper shielding cover plate and a lower shielding cover plate, and the upper shielding cover plate and the lower shielding cover plate are formed by splicing a plurality of shielding flat plates. The accelerator radiation shielding chamber is flexible to assemble and disassemble in the installation process, is simple and reliable, and has high splicing freedom degree, so that the technical problem that the accelerator radiation shielding chamber cannot be solved due to the limitation of places, environments and the like is solved. Meets the radiation protection requirement of the accelerator.

Description

An accelerator radiation shielding room

technical field

The invention relates to an accelerator radiation shielding room, which belongs to the technical field of accelerator radiation protection in accelerator technology.

Background technique

The accelerator will produce radioactivity when it is running, which is harmful to the surrounding environment and personnel. Therefore, it is necessary to effectively protect the environment and personnel. The most common way is to use a shield to shield the accelerator so that the accelerator is in a separate operating environment. The shield generally cannot have Straight gaps to avoid radioactive leakage.

Since most accelerators are built in the existing halls, laboratories and other spaces, it is impossible to directly construct the overall shielding room. Therefore, a simple, compact, and high-utilization radiation shielding room is designed to meet the radiation protection requirements of the accelerator. and provides the ideal environment for effective operation.

Contents of the invention

In view of the above problems, the purpose of the present invention is to provide an accelerator radiation shielding room, which can meet the requirements of accelerator radiation protection, and can be built in a limited space, and has a simple and compact structure and is easy to use.

To achieve the above object, the present invention takes the following technical solutions:

The invention provides an accelerator radiation shielding room, which includes a shielding wall and a shielding cover, and the shielding cover is assembled with the shielding wall to form a shielding room;

The shielding wall includes a main body area and a corner area, the main body area is formed by splicing a plurality of shielding splicing blocks, and the angle area is formed by splicing a plurality of angle splicing shielding blocks;

The shielding cover is covered on the top of the shielding wall, and the shielding cover includes an upper shielding cover and a lower shielding cover, and the upper shielding cover and the lower shielding cover are tiled by a plurality of shielding flat plates stitched together.

Further, the splicing gap in the main body area is Z-shaped.

Further, the splicing gap in the corner area is Z-shaped.

Further, the shielding splicing block has a trapezoidal structure.

Further, the upper shielding cover is formed by laying a plurality of shielding flat plates on the shielding wall, the lower shielding cover is formed by laying a plurality of shielding flat plates on the lower shielding cover, and the upper shielding cover The splicing gap of the shielding cover and the splicing gap of the lower shielding cover are staggered.

Further, the shielded room includes an accelerator equipment area and a labyrinth area, the accelerator equipment area and the labyrinth area are separated by a labyrinth shielding wall, and the labyrinth area is adjacent to the accelerator equipment area.

Further, the shielding wall of the labyrinth is formed by splicing a plurality of shielding splicing blocks.

Further, a boss is provided on the top of the shielding wall, and the shielding plate of the shielding cover is overlapped on the boss, and the overlapping gap is Z-shaped.

Further, at least one of the shielding splicing blocks or angle splicing shielding blocks of the shielding wall is provided with a pipeline hole.

Further, a collimation target base is installed on the inner wall of the shielding wall.

The present invention has the following advantages due to the adoption of the above technical scheme:

(1) The accelerator radiation shielding room is spliced by a shielding wall and a shielding cover, and the shielding wall and the shielding cover are respectively spliced with a plurality of shielding splicing blocks and shielding flat plates, which are flexible in disassembly and assembly, and easy to install. The size of the area is freely adjustable;

(2) The gaps in the shielding wall and the overlapping gap between the shielding cover and the shielding wall are all Z-shaped gaps, which can effectively meet the requirements of radiation protection;

(3) Reusable, high utilization rate;

Description of drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiment. The drawings are only for the purpose of illustrating a preferred embodiment and are not to be considered as limiting the invention. Throughout the drawings, the same reference numerals are used to refer to the same parts.

In the attached picture:

Fig. 1 is the schematic diagram of accelerator radiation shielding room provided by the present invention;

Fig. 2 is a sectional view of the accelerator radiation shielding room in Fig. 1;

Fig. 3 is a schematic diagram of the area of the accelerator radiation shielding room in Fig. 1;

Fig. 4 is a schematic structural diagram of the shielding block in Fig. 1;

Fig. 5 is a sectional view of the hole in Fig. 1;

Fig. 6 is the collimation target coordinate diagram in Fig. 1;

Each sign in the attached drawing represents as follows:

31-shielding wall, 2-shielding cover, 1-1,1-2-shielding splicing block, 1-3,1-4-angle splicing shielding block, 2-1-upper shielding cover, 2-2 -The lower shielding cover plate, 3-accelerator equipment, 4-maze area, 5-maze shielding wall, 1-5-collimation target seat, 1-6-pipeline hole, 1-7-boss.

Detailed ways

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. Although exemplary embodiments of the present invention are shown in the drawings, it should be understood that the invention may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided for more thorough understanding of the present invention and to fully convey the scope of the present invention to those skilled in the art.

The invention relates to an accelerator radiation shielding room, which includes a shielding wall and a shielding cover plate; the shielding wall includes a right-angle area and a corner area, and the shielding wall includes a main body area and a corner area, and the main body area is composed of A plurality of shielding splicing blocks are spliced, and the corner area is spliced by a plurality of corner splicing shielding blocks; the shielding cover plate covers the top of the shielding wall, and the shielding cover plate and the shielding wall A shielding room is enclosed between them, and the shielding cover plate includes an upper layer shielding cover plate and a lower layer shielding cover plate, and the upper layer shielding cover plate and the lower layer shielding cover plate are spliced by a plurality of shielding flat plates. The accelerator radiation shielding room is flexible in disassembly and assembly during the installation process, simple and reliable, and has a high degree of freedom in splicing, thereby alleviating technical problems that cannot be solved due to limitations in the site and environment. Satisfy the radiation protection requirements of accelerators.

As shown in Figures 1-6, the accelerator radiation shielding room provided by the present invention includes a shielding wall 1 and a shielding cover plate 2; the shielding wall 1 includes a main body area and a corner area, and the main body area is composed of a plurality of The shielding splicing blocks 1-1, 1-2 are spliced, and the corner area is spliced by a plurality of corner splicing shielding blocks 1-3, 1-4; the shielding cover plate covers the shielding wall 1, a shielding room is formed between the shielding cover 2 and the shielding wall 1, the shielding cover 2 includes an upper shielding cover 2-1 and a lower shielding cover 2-2, and the upper shielding cover Both the board 2-1 and the lower shielding cover board 2-2 are spliced by a plurality of shielding flat plates.

During use, an appropriate number of shielding splicing blocks 1-1, 1-2 can be selected and spliced to form the main area of the shielding wall 1 according to the space conditions such as the laboratory, and an appropriate number of curved corners are used to splice the shielding blocks 1-1-2. 3, 1-4 are spliced to form the corner area, the shielding wall 1 is composed of the main body area and the corner area, and a plurality of shielding flat plates are spliced to form the shielding cover plate 2, and the shielding cover plate 2 is covered on the top of the shielding wall 1 .

The shielding room is flexible in disassembly and assembly during the installation process, simple and reliable, and has a high degree of freedom in splicing, thereby alleviating technical problems that cannot be solved due to limitations in the site and environment. It meets the radiation protection requirements of the accelerator and provides an effective and ideal environment for the construction and operation of the accelerator.

In order to improve the shielding effect and prevent magnetic leakage at the splicing gap, the splicing gap in the main body area is Z-shaped. Compared with straight slits, the Z-shaped slit formed by the present invention can better prevent radiation leakage.

The splicing gap in the corner area is Z-shaped, which meets the protection requirements.

Preferably, the shielding splicing block 1 - 1 is of a trapezoidal structure, and the shielding splicing block of the trapezoidal structure is adopted, and the gap formed after splicing is Z-shaped, which can improve the protection effect.

The upper shielding cover plate 2-1 is formed by sequentially splicing a plurality of shielding plates and laying them on the shielding wall 1, and the lower shielding cover plate 2-2 is sequentially splicing and laying on the next shielding plate. The shielding cover 2-2 is formed, and the splicing gap of the upper shielding cover 2-1 and the splicing gap of the lower shielding cover 2-2 are staggered. Compared with a single-layer shielding cover, the present invention adopts a double-layer shielding cover, and the splicing gaps of the upper shielding cover 2-1 and the lower shielding cover 2-2 are staggered to better prevent radiation from leaking from the gap , improving the protective effect.

Further, the shielded room includes an accelerator equipment area 3 and a labyrinth area 4, the accelerator equipment area 3 and the labyrinth area 4 are separated by a labyrinth shielding wall 5, and the labyrinth area 4 is adjacent to the accelerator equipment area 3. The accelerator equipment area 3 is used for installation, operation and maintenance of the accelerator equipment 3 . The labyrinth area 4 is adjacent to the accelerator equipment area 3, and is separated from the accelerator equipment area 3 by a labyrinth shielding wall 5, which can effectively prevent the entrance of the shielded room from being damaged by radioactive rays.

The labyrinth shielding wall 1 is formed by splicing a plurality of shielding splicing blocks 1-2, the shielding splicing blocks 1-2 are spliced in pairs, and the paired shielding splicing blocks 1-1, 1-2 are spliced to form The gap is a Z shape.

The top of the shielding wall 1 is provided with a boss 1-7, and the shielding cover plate 2 is overlapped on the boss 1-7, and the overlapping gap is Z-shaped.

At least one of the shielding splicing blocks 1-1 or angled splicing shielding blocks 1-3 of the shielding wall 1 is provided with pipeline holes 1-6 to meet pipeline application requirements.

The inner wall of the shielding wall 1 is provided with a collimation target seat 1-5, and the shielding wall 1 is provided with a collimation target seat 1-5, and the collimation operator can pass through the collimation target seat 1 -5 Arrange collimation nets in the accelerator equipment area 3, so that operators can collimate, measure and install the equipment components in the accelerator equipment area 3.

The size, quantity and position of pipeline holes 1-6 can be determined according to actual needs;

The number of collimation target seats 1-5 can be determined according to actual needs;

The height of the collimation target seat 1-5 can be determined according to the actual situation.

The accelerator radiation shielding room can meet the radiation protection requirements of the accelerator, and can be built in a limited space, has a simple and compact structure, and is easy to use.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present invention, rather than to limit them; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that: it can still be Modifications are made to the technical solutions described in the foregoing embodiments, or equivalent replacements are made to some of the technical features; and these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the various embodiments of the present invention.

Claims (10)

1. An accelerator radiation shielding room, characterized in that it comprises a shielding wall and a shielding cover, and the shielding cover is assembled with the shielding wall to form a shielding room; The shielding wall includes a main body area and a corner area, the main body area is formed by splicing a plurality of shielding splicing blocks, and the angle area is formed by splicing a plurality of angle splicing shielding blocks; The shielding cover is covered on the top of the shielding wall, and the shielding cover includes an upper shielding cover and a lower shielding cover, and the upper shielding cover and the lower shielding cover are tiled by a plurality of shielding flat plates stitched together. 2 . The accelerator radiation shielding room according to claim 1 , wherein the splicing gap in the main body area is Z-shaped. 3 . 3 . The accelerator radiation shielding room according to claim 1 , wherein the splicing gap in the corner area is Z-shaped. 4 . 4. The accelerator radiation shielding room according to claim 1, characterized in that, the shielding splicing block is a trapezoidal structure. 5. The accelerator radiation shielding room according to claim 1, wherein the upper shielding cover plate is formed by laying a plurality of shielding flat plates on the shielding wall, and the lower shielding cover plate is formed by laying a plurality of shielding flat plates Formed on the lower shielding cover, the splicing gap of the upper shielding cover and the splicing gap of the lower shielding cover are staggered. 6. The accelerator radiation shielding room according to claim 1, wherein the shielding room includes an accelerator equipment area and a labyrinth area, and the accelerator equipment area and the labyrinth area are separated by a labyrinth shielding wall, the A labyrinth area is adjacent to the accelerator equipment area. 7. The accelerator radiation shielding room according to claim 6, wherein the shielding wall of the labyrinth is formed by splicing a plurality of shielding splicing blocks. 8. The accelerator radiation shielding room according to claim 1, wherein a boss is provided on the top of the shielding wall, and the shielding plate of the shielding cover is overlapped on the boss, and the overlapped The gap is Z-shaped. 9. The accelerator radiation shielding room according to claim 1, characterized in that at least one of the shielding splicing blocks or angle splicing shielding blocks of the shielding wall is provided with a pipeline hole. 10 . The accelerator radiation shielding room according to claim 1 , wherein a collimation target base is installed on the inner side wall of the shielding wall. 11 .