KR102285997B1 - The radiation shielding block above the permanent pool seal - Google Patents

Abstract

The present invention relates to a radiation shielding block for shielding an upper portion of a permanent water tank sealing body. Such a radiation shielding block is a radiation shielding block for shielding the upper part of a permanent water tank sealing body that is accommodated in the cavity of the nuclear reactor and closes the space between the nuclear reactor and the nuclear reactor building, the perimeter of the nuclear reactor a radial block having a first block disposed in a direction and a second block disposed to face the first block; a first connection block having both ends respectively seated on one end of the first block and the second block facing each other; and a second connection block, each of which is seated on the other end of the first block and the second block with both ends facing each other.

Description

The radiation shielding block above the permanent pool seal

The present invention relates to a radiation shielding block that shields the upper part of a permanent water tank sealing body, and a permanent water tank that shields radiation from the upper part of the permanent water tank seal of a nuclear reactor building to secure operator's accessibility to facilitate maintenance work of the nuclear reactor building It relates to a radiation shielding block for shielding the upper portion of the sealing body.

Nuclear power plants must ensure the accessibility of workers in the reactor building during output operation. For example, as shown in Figure 1, France's EPR nuclear power plant blocks the flow of neutrons and gamma rays from the reactor 1 by shielding the upper part of the reactor reloading tank 7 with a concrete slab 8. In addition, the upper part of the steam generator compartment is shielded to reduce the effect of radiation scattering during output operation.

In order to allow the operator to access the operating floor of the reactor building during output operation, the EPR nuclear power plant attempted a method of completely covering the upper part of the reactor reloading tank 7 with a slab 8 . However, in the APR1400 or APR1000 nuclear power plants, since the Integrated Head Assembly (IHA) rises higher than the operating floor, it is impossible to design the slab to completely cover the water tank area from the operating floor.

Accordingly, the present invention intends to propose a new facility for directly shielding neutrons and gamma rays that escape from the reactor cavity to the upper part of the permanent pool seal.

The present invention has been devised to solve the above-mentioned needs, and by shielding radiation from the upper part of the permanent water tank seal of the nuclear reactor building to secure the accessibility of the operator to enable various maintenance work of the reactor building, It relates to a radiation shielding block that shields the upper part of a permanent water tank sealing body to improve safety and ease of maintenance and repair.

The radiation shielding block for shielding the upper part of the permanent water tank sealing body according to the embodiment of the present invention is a nuclear reactor accommodated in the cavity of the nuclear reactor building, the upper part of the permanent water tank sealing body closing the space between the reactor and the reactor building A radiation shielding block for shielding a nuclear reactor, comprising: a radial block having a first block disposed in a circumferential direction of the nuclear reactor and a second block disposed to face the first block; a first connection block having both ends respectively seated on one end of the first block and the second block facing each other; and a second connection block, each of which is seated on the other end of the first block and the second block with both ends facing each other.

In addition, the radial block includes a support part supported by the nuclear reactor building, and a shielding part extending from the support part toward the reactor and disposed on an upper part of the permanent water tank sealing body, the thickness of the support part being greater than the thickness of the shielding part it is preferable

In addition, a seating plate provided on the installation surface of the nuclear reactor building so that the radial block is coupled; a plurality of support rods having a lower end fixed to the seating plate; a through hole formed in the radial block so that the support rod passes therethrough; and a fastening member coupled to the upper end of the support bar after fastening the radial block through the through hole.

In addition, at both ends of the first block, first seating surfaces on which one ends of the first connection block and the second connection block are respectively seated are provided, and at both ends of the second block, the first connection block and the second connection block are provided. A second seating surface on which the other end of the connection block is seated is provided, and the first and second connection blocks have a support surface supported on the first and second seating surfaces, and the first and second connection blocks projecting from the support surface. It is preferable to include an insertion part inserted into the space between the blocks.

Preferably, the first block is divided into a plurality of first sub-blocks, and the second block is formed by dividing the second block into a plurality of second sub-blocks.

In addition, it is preferable that the radial block, the first connection block, and the second connection block are lifted and separated, respectively, with hooking rings provided on the upper portions of the radial block, the first connection block, and the second connection block. do.

The radiation shielding block for shielding the upper part of the permanent water tank sealing body according to the present invention shields the radiation from the upper part of the permanent water tank seal body of the nuclear reactor building, thereby securing the accessibility of the operator and enabling various maintenance work of the nuclear reactor building, It provides the effect of improving the safety of nuclear power plants and the ease of maintenance and repair.

1 is a view schematically showing a state of shielding the upper part of a conventional nuclear reactor loading tank;
2 is a schematic cross-sectional view of a nuclear reactor equipped with a shielding block according to an embodiment of the present invention;
3 is a plan view of a shielding block according to an embodiment of the present invention;
4 is a cross-sectional view taken along line AA of FIG. 3;
5 is a cross-sectional view taken along line BB of FIG. 3;
6 is a cross-sectional view taken along line CC of FIG. 3;
Fig. 7 is a schematic plan view of Fig. 6;

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention provides a permanent pool seal in a nuclear reactor building to ensure operator accessibility by lowering the radiation level in the reactor building to a predetermined level during output operation to satisfy the safety requirements for workers and the public from radiation. ) relates to a device for shielding radiation from the top.

2 is a schematic cross-sectional view of a nuclear reactor in which a shielding block according to an embodiment of the present invention is installed, and FIG. 3 is a plan view of the shielding block according to an embodiment of the present invention. 4 is a cross-sectional view taken along line A-A of FIG. 3, and FIG. 5 is a cross-sectional view taken along line B-B of FIG. 6 is a cross-sectional view taken along line C-C of FIG. 3, and FIG. 7 is a schematic plan view of FIG.

First, referring to Figures 2 and 3, the radiation shielding block 200 for shielding the upper part of the permanent water tank seal according to the embodiment of the present invention, the nuclear reactor 1 is accommodated in the cavity of the reactor building 2, It relates to a device for shielding the upper part of the permanent water tank sealing body (3) for closing the space between the reactor (1) and the nuclear reactor building (2).

The radiation shielding block 200 according to the embodiment of the present invention includes a radial block 10 , a first connection block 20 , and a second connection block 30 .

The radial block 10 includes a first block 11 disposed in a circumferential direction of the nuclear reactor 1 and a second block 12 disposed to face the first block 11 .

As shown in FIG. 3 , the first block 11 and the second block 12 are disposed to face each other and are formed to be rounded while having a constant curvature. At the center of the first and second blocks 11 and 12 , the head of the nuclear reactor 1 is exposed upwardly. According to this embodiment, the first and second blocks 11 and 12 are formed and arranged symmetrically with each other.

Specifically, the radial block 10 includes a support 13 and a shield 14 .

The support part 13 is a part supported by the nuclear reactor building 2 , and the shielding part 14 extends from the support part 13 toward the reactor 1 and is on the upper part of the permanent water tank sealing body 3 . part to be placed.

The permanent water tank sealing body 3 is provided in a space between the nuclear reactor 1 and the nuclear reactor building 2 to form a water tank in which water is stored on the upper side of the permanent water tank sealing body 3, as shown in FIG. As shown, the permanent water tank seal 3 is welded to the reactor building 2 and the reactor upper flange 4 . One end of the permanent water tank sealing body 3 is welded to the mounting plate 6 provided in the nuclear reactor building 2 , and the other end is welded to the reactor upper flange 4 .

The permanent water tank sealing body 3 is coupled to protrude upward from the reactor upper flange 4 . According to this embodiment, the thickness of the support part 13 is formed to be greater than the thickness of the shielding part 14 .

The thickness of the shielding part 14 is made thinner than the support part 13 so as not to interfere with the permanent water tank sealing body 3, and neutrons and gamma rays that escape through the upper part of the permanent water tank sealing body 3 are shielded. do. The shielding part 14 extends toward the nuclear reactor 1 from the support part 13 to a position at which the permanent water tank sealing body 3 can be covered on the upper side.

The radiation shielding block 200 for shielding the upper part of the permanent water tank sealing body according to the embodiment of the present invention is detachably installed in the nuclear reactor building (2). To this end, the radiation shielding block 200 according to the embodiment of the present invention includes a seating plate 60 , a support rod 70 , a through hole 80 , and a fastening member 90 .

The seating plate 60 is provided on the installation surface 5 of the nuclear reactor building 2 to be coupled to the radial block 10 . The seating plate 60 is installed horizontally on the flat installation surface 5 . The seating plate 60 is made of a steel material.

The support rod 70, the lower end thereof is fixed to the seating plate 60, and extends vertically. According to this embodiment, the support rod 70 is provided in plurality. According to this embodiment, the support rod 70 is formed with a diameter of about 41 mm (1.625 inch). Of course, the diameter is not limited to the above size. The support rod 70 is made of a steel material.

The through hole 80 is formed in the radial block 10 so that the support rod 70 can pass therethrough. According to this embodiment, the radial block 10 is manufactured in a block type by pouring concrete inside after manufacturing an outer frame with a steel plate having a thickness of 6 mm (0.25 inch) on its outer surface. The through hole 80 is formed to penetrate in the vertical direction of the radial block 10 by inserting a steel pipe into the outer frame before pouring the concrete, and then pouring the concrete.

The fastening member 90 is coupled to the upper end of the support rod 70 after inserting the radial block 10 into the support rod 70 . According to this embodiment, the fastening member 90 is a bolt fastened to the upper end of the support rod 70 in a screw manner, and the diameter thereof is formed in a size of about 38 mm (1.5 inch).

In this way, the radial block 10 is pre-fabricated in a block shape of a concrete material, and then installed in a fitting manner to the mounting plate 60 and the support rod 70 provided in the nuclear reactor building 2 . The support rod 70 improves the structural stability of the radial block 10 and at the same time allows it to be installed at a smooth and accurate position when the radial block 10 is installed.

The first connection block 20 and the second connection block 30 connect the space between the first block 11 and the second block 12 facing each other to connect the permanent water tank It is provided in order to shield the upper part of the sealing body (3).

The first connection block 20 is seated at one end of the first block 11 and the second block 12, both ends of which face each other. In addition, the second connection block 30 is seated at the other end of the first block 11 and the second block 12, both ends of which face each other.

According to the present embodiment, first seating surfaces 15 on which one end of the first connection block 20 and the second connection block 30 are respectively seated are provided at both ends of the first block 11 . In addition, at both ends of the second block 12, second seating surfaces 16 on which the other ends of the first connection block 20 and the second connection block 30 are respectively seated are provided.

As shown in FIG. 5 , the first connection block 20 includes a support surface 40 and an insertion part 50 . The support surface 40 is a portion to be seated on the first and second seating surfaces 15 and 16 , and the insertion part 50 protrudes from the support surface 40 to form the first and second blocks 11 , 11 , 12) is inserted into the space between the As shown in FIG. 3 , the first connection block 20 and the second connection block 30 are disposed to face each other, and the first and second connection blocks 20 and 30 are the first and second connection blocks. It is placed on the blocks 11 and 12 in a seated state.

According to the embodiment of the present invention, the first block 11 and the second block 12 are formed separately.

Specifically, the first block 11 is divided into a plurality of first sub-blocks 111 , and the second block 12 is divided into a plurality of second sub-blocks 121 . As shown in FIG. 3 , the first block 11 is divided into four first sub-blocks 111 . The second block 12, like the first block 11, is divided into four second sub-blocks 121 and is formed.

Both the first sub-block 111 and the second sub-block 121 include a support 13 and a shield 14 . The first seating surface 15 is formed on the two first sub-blocks 111 at the edges among the four first sub-blocks 111 . The second seating surface 16 is formed on the two second sub-blocks 121 at the edges among the four second sub-blocks 121 .

In addition, according to this embodiment, the radial block 10, the first connection block 20, and the second connection block 30 can be lifted and separated so that the radial block 10, the first A hooking ring 100 is formed at the upper portions of the connection block 20 and the second connection block 30 , respectively.

The radial block 10 has a receiving groove 160 in which the locking ring 100 is accommodated, and a closing plate 140 is detachably coupled to the upper side of the receiving groove 160 . Specifically, referring to FIG. 6 , a lower fixing plate 110 to which an end of the locking ring 100 is fixed is provided on the bottom surface of the radial block 10 , and the locking ring 100 is accommodated in a fitted state. An intermediate fixing plate 120 forming a bottom surface of the groove 160 is provided. A side plate 130 is coupled to the edge of the intermediate fixing plate 120 .

The lower fixing plate 110 , the engaging ring 100 , the intermediate fixing plate 120 , and the side plate 130 are prepared together with the outer frame when forming the radial block 10 , and then the concrete is poured. The accommodating groove 160 is formed, and the upper portion of the locking ring 100 is molded in a state accommodated in the accommodating groove 160 .

The edge of the closing plate 140 is fastened to the side plate 130 by bolts 150 . A lifting hole 141 is formed at one side of the closing plate 140 . When lifting the radial block 10 , after removing the bolting of the closing plate 140 , the closing plate 140 is removed using the lifting hole 141 , and then the radial block 10 is lifted. can

The locking ring 100 provided on the first connection block 20 and the second connection block 30 is formed in the same structure as the locking ring 100 provided on the radial block 10, and the first, 2 The process of lifting the connecting blocks 20 and 30 is also the same as the lifting process of the radial block 10 .

Hereinafter, the operation or effect of the radiation shielding block 200 according to the above configuration will be described in detail.

As described above, the first block 11 and the second block 12 constituting the radial block 10 are first manufactured. Specifically, the first sub-block 111 and the second sub-block 121 are manufactured by pouring concrete into the outer frame. At this time, the locking ring 100 is molded together on the first and second sub-blocks 111 and 121 . Like the first sub-block 111 or the second sub-block 121, the first and second connection blocks may be manufactured by pouring concrete into the outer frame.

A through hole 80 is formed in the first and second sub-blocks 111 and 121 , and a support rod 70 is vertically coupled to the mounting plate 60 coupled to the installation surface 5 of the nuclear reactor building 2 . . The first and second sub-blocks 111 and 121 are brought closer to the support rod 70 using a lifting device, and the support rod 70 is inserted so that the through hole 80 passes through the first and second sub-blocks 111 and 121. combine A fastening member 90 is coupled to the upper end of the support rod 70 protruding from the through hole 80 to be firmly fixed. The first and second sub-blocks 111 and 121 can be easily installed by easily grasping the coupling positions by the positions of the support rods 70 and the through-holes 80 .

Next, the first and second connection blocks 20 and 30 are seated in the space between the first block 11 and the second block 12 . The first and second connecting blocks 20 and 30 do not use a separate fastening member from the first and second blocks 11 and 12, and support surfaces ( 40), and the insertion part 50 is inserted between the first and second blocks 11 and 12, thereby completing the coupling.

When it is necessary to remove the radial block 10 and the first and second connecting blocks 20 and 30, the radial block 10 and the first and second connecting blocks 20 and 30 are performed in the reverse order of the installation order. can be removed. That is, the first and second connection blocks 20 and 30 are removed, and then the first and second sub-blocks 111 and 121 are removed. At this time, after removing the finishing plate 140 coupled to the first and second sub-blocks 111 and 121, the engaging ring 100 is exposed to the outside, and the first and second sub-blocks 111 and 121 are lifted using a lifting device. can do.

As such, in the radiation shielding block 200 for shielding the upper part of the permanent water tank sealing body according to the embodiment of the present invention, the upper part of the permanent water tank sealing body 3 is shielded by the concrete shielding block, so that the radiation of neutron to gamma rays is the permanent It is prevented from escaping to the upper part of the water tank sealing body (3), thereby providing the effect of securing the accessibility of the operator.

In addition, since the radiation shielding block 200 according to the embodiment of the present invention is assembled by assembling the blocked radial block 10 and the first and second connecting blocks 20 and 30 around the nuclear reactor 1, installation and removal It provides the effect of simplifying the maintenance and repair of the nuclear reactor.

Above, the present invention has been described in detail with respect to preferred embodiments, but the present invention is not limited to the above embodiments, and various modifications may be provided within the scope of the present invention.

10... Radial block 11... First block
12... second block 13... support
14... Shielding part 15... First seating surface
16... Second seating surface 111... First sub-block
121... 2nd sub-block 20... 1st connection block
30... Second connection block 40... Support surface
50... Insertion part 60... Seating plate
70... Support rod 80... Through hole
90... Fastening member 100... Locking hook
110... Lower fixing plate 120... Middle fixing plate
130... Side plate 140... Finish plate
141... Lifting hole 150... Bolt
160... Accommodation Home 1.... Reactor
2... Reactor building 3... Permanent water tank seal
4... reactor top flange 5... mounting surface
6... mounting plate 7... reactor reloading channel
8... slab 200... radiation shielding block

Claims (6)

In the radiation shielding block for shielding the upper part of the permanent water tank sealing body that is accommodated in the cavity of the nuclear reactor and closes the space between the reactor and the reactor building,
a radial block having a first block disposed in a circumferential direction of the nuclear reactor and a second block disposed to face the first block;
a first connection block having both ends respectively seated at one end of the first block and the second block facing each other; and
Including; and a second connection block respectively seated on the other ends of the first block and the second block having both ends facing each other,
The radial block includes a support part supported by the nuclear reactor building, and a shielding part extending from the support part toward the reactor and disposed on the permanent water tank sealing body,
The thickness of the support part is a radiation shielding block for shielding the upper part of the permanent water tank sealing body, characterized in that greater than the thickness of the shielding part. delete In the radiation shielding block for shielding the upper part of the permanent water tank sealing body that is accommodated in the cavity of the nuclear reactor and closes the space between the reactor and the reactor building,
a radial block having a first block disposed in a circumferential direction of the nuclear reactor and a second block disposed to face the first block;
a first connection block having both ends respectively seated at one end of the first block and the second block facing each other; and
Including; and a second connection block respectively seated on the other ends of the first block and the second block having both ends facing each other,
a seating plate provided on the installation surface of the nuclear reactor building so that the radial block is coupled;
a plurality of support rods having a lower end fixed to the seating plate;
a through hole formed in the radial block so that the support rod passes therethrough; and
After fastening the radial block through the through hole, a fastening member coupled to the upper end of the support rod; a radiation shielding block for shielding the upper part of the permanent water tank sealing body, comprising: a. According to claim 1,
At both ends of the first block, first seating surfaces on which one end of the first connection block and the second connection block are respectively seated are provided;
At both ends of the second block, second seating surfaces are provided on which the other ends of the first connection block and the second connection block are respectively seated,
The first and second connection blocks include a support surface supported on the first and second seating surfaces, and an insertion part protruding from the support surface and inserted into a space between the first and second blocks. A radiation shielding block that shields the upper part of the sealing body. In the radiation shielding block for shielding the upper part of the permanent water tank sealing body that is accommodated in the cavity of the nuclear reactor and closes the space between the reactor and the reactor building,
a radial block having a first block disposed in a circumferential direction of the nuclear reactor and a second block disposed to face the first block;
a first connection block having both ends respectively seated at one end of the first block and the second block facing each other; and
Including; and a second connection block respectively seated on the other ends of the first block and the second block having both ends facing each other,
The first block is divided into a plurality of first sub-blocks,
The second block is a radiation shielding block for shielding the upper part of the permanent water tank sealing body, characterized in that formed by dividing the plurality of second sub-blocks. According to claim 1,
In order to lift and separate the radial block, the first connection block, and the second connection block, each of the radial block, the first connection block, and the second connection block is provided with a locking ring on the upper portion of the block, characterized in that A radiation shielding block that shields the upper part of the permanent water tank sealing body.

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