KR102144080B1 - Method for dismantling concrete structure of dome type - Google Patents

Abstract

Provided is a method for dismantling a dome-shaped concrete structure which can stably dismantle the dome-shaped concrete structure by sequentially cutting and dismantling the dome-shaped concrete structure, which cannot be dismantled by blasting or crushing, such as a nuclear power plant concrete containment structure from a lower end unit by using hydraulic jacks and wire saw cutting devices and the like.

Description

Method of dismantling dome-shaped concrete structure {METHOD FOR DISMANTLING CONCRETE STRUCTURE OF DOME TYPE}

The present invention relates to a method for dismantling a dome-shaped concrete structure, and more specifically, the dismantling of a dome-shaped concrete structure in which a dome-shaped concrete structure, in particular, a nuclear power plant containment concrete structure, is sequentially cut and dismantled from the lower end using a hydraulic jack and a wire saw cutting device. It is about the construction method.

In general, a nuclear reactor containment building is an enclosed building in which a nuclear reactor, a main unit of a nuclear power plant, and a steam generator are arranged in a nuclear power plant.

1 is a schematic configuration diagram of a general nuclear reactor containment building.

As shown in FIG. 1, the reactor containment structure is generally made of a dome-shaped structure, specifically, it is made by stacking a plurality of liner plates and pouring concrete on the outside. That is, the inner side of the reactor containment structure is lined with a steel plate such as stainless steel, and cement concrete is poured on the outer side of the liner plate.As shown in FIG. 1, the top dome liner and dome Includes a bottom shell liner.

When constructing the liner plate for the nuclear reactor containment structure in such a nuclear power plant, the plate pieces made of the pieces on the ground are assembled on the surface, and the 2nd to 3rd stages are completed and then lifted and installed at the construction site.

The liner plate assembly completed during this process by the existing construction method is installed by welding the lifting tools to the attention of the liner plate and lifting it to the site with a large-capacity crane (for example, 1350 ton capacity). Afterwards, after welding the liner plate previously installed at the bottom and the lighter plate newly installed at the site, the lifting tools installed for lifting are removed through cutting. For example, the first and second stages of the liner plate are installed on-site, and the remaining stages after the third stage are assembled on the ground surface to complete the liner plate assembly and then lifted and installed to the construction position. This liner plate consists of about 19 stages, and each time it is lifted, the lifting tool is welded and installed, and after the installation is completed, the operation of cutting and removing is repeated.

Meanwhile, dismantling such a nuclear power plant is as difficult as constructing it, making it difficult to enter the market. Not only does it require a variety of techniques to prevent radiation leakage, it is a large-scale operation that takes at least 15 to 60 years in some cases.

The dismantling of nuclear power plants is largely divided into three stages: 1) preparation for dismantling after permanent suspension, 2) dismantling stage, and 3) post management. When the operation of nuclear power plants is stopped, the facility and site characteristics for decommissioning are evaluated, the feasibility of technology development and the required funds are determined. This is the stage of preparation for dismantling.

The demolition stage work can be divided into decontamination (decontamination) and structure demolition. Decontamination is the process of removing or reducing radioactive material from a particular facility or area. Apply a variety of techniques using mechanical and chemical methods. After this decontamination work is completed, the structure is demolished. The inside of the nuclear power plant facility is virtually inaccessible to workers due to high radiation. A remote disassembly system using a robot is required. Various wastes collected in this way are transported in a form suitable for storage at the disposal site. Thereafter, the site where the dismantling was completed is completed with post management such as restoration work to return to its original natural state.

On the other hand, Figure 2 is a view showing a cutting system using a dry wire saw for dismantling a nuclear power plant structure according to the prior art.

As shown in Figure 2, the cutting system using a dry wire saw for dismantling nuclear power plant structures according to the prior art winds a wire rope around the cutting target portion of the nuclear power plant structure 23, and drives the wire rope to drive the nuclear power plant structure ( A diamond wire saw 21 for cutting 23); A self-propelled driving device 22 for driving the diamond wire saw 21; A dust collecting cover fixedly installed to seal the cut portion of the nuclear power plant structure 23 in which the wire is wound, and formed in a semicircular shape as a whole, and wing portions horizontally formed at both ends; A dust container fixedly installed on the one side, made in a hexahedral shape as a whole, and a lower portion formed in a cross-sectional shape of an upper gwang-hahyeop; A self-propelled dust collecting device 25 which is stored at the same time as the dust collected in the dust container is transferred; And a negative pressure device 26 disposed at a predetermined position of the nuclear power plant structure 23. That is, the cutting system using a dry wire saw for dismantling a nuclear power plant structure according to the prior art includes a diamond wire saw 21, a self-propelled driving device 22, a dust collection cover, a dust container, a self-propelled dust collector 25, and a negative pressure device ( 26) is organically combined.

In the case of a cutting system using a dry wire saw for dismantling a nuclear power plant structure according to the conventional technology, it is safe and efficient for the purpose of dismantling the concrete wall such as the radioactive nuclear reactor shielding wall of the nuclear power plant structure or another statue of a cylindrical shape, and has a shape or block. Can be cut into shape.

According to the cutting system using a dry wire saw for dismantling nuclear power plant structures according to the prior art, it is applied not only to the main purpose of cutting and dismantling nuclear reactor shielding walls and dome structures, but also to cutting and dismantling large and small reinforced concrete structures of the same kind. It is possible to assemble and dismantle because the overall structure is small, and the space of the structure to be cut is narrow, or it can be easily carried in and installed by assembling outside the radiation area or outside the site of the wall structure. Since there is no need for a hypothesis, the shortening of the air can be achieved.

However, in the case of a cutting system using a dry wire saw for dismantling a nuclear power plant structure according to the prior art, there is a problem that it cannot be applied to dismantle the outer wall of a dome-type concrete structure formed by pouring concrete.

Japanese Patent No. 5,250,806 (Registration Date: April 26, 2013), Title of Invention: "Stroke Control Method of Hydraulic Jack for Dismantling Construction" Japanese Patent No. 5,177,883 (Registration Date: January 18, 2013), Title of Invention: "Multi-story building is a dismantling method and a load transmission structure for dismantling" Republic of Korea Patent No. 10-1662588 (Registration date: September 28, 2016), title of invention: "Cutting system using dry wire saw for dismantling nuclear power plant structures and its cutting and dismantling method" Republic of Korea Patent Publication No. 2020-2308 (published date: January 8, 2020), title of invention: "nuclear power plant structure dismantling device" Japanese Patent Application Laid-Open No. Hei 8-270232 (published date: October 15, 1996), title of invention: "Method of dismantling steel structures"

The technical problem to be achieved by the present invention for solving the above-described problems is a dome-shaped concrete structure capable of sequentially cutting and dismantling a dome-shaped concrete structure, in particular, a nuclear power plant containment concrete structure from the lower end using a hydraulic jack and a wire saw cutting device. It is intended to provide a method of dismantling.

As a means for achieving the above-described technical problem, the method of dismantling a dome-shaped concrete structure according to the present invention includes: a) calculating the total load of the dome-shaped concrete structure, and determining a cutting position and size of the dome-shaped concrete structure; b) calculating the capacity and quantity of hydraulic jacks to be installed under the dome-shaped concrete structure, and forming a perforated core of the corresponding portion; c) forming a plurality of concrete wall cutouts for hydraulic jack installation by pre-cutting the perforated core after forming the perforated core; d) inserting and installing a hydraulic jack into the concrete wall cutting part for installing the hydraulic jack, and connecting the hydraulic pump and the control panel; e) cutting the side dismantled concrete wall between the concrete wall cutting portions for installing the hydraulic jack; And f) lowering the dome-shaped concrete structure by lowering the piston of the hydraulic jack, wherein the dome-shaped concrete structure is dismantled from a lower portion and lowering the upper structure step by step.

Here, the dome-shaped concrete structure may be a nuclear power plant containment concrete structure.

Here, it is characterized in that the steps b) to f) are repeatedly performed until the dismantling of the dome-shaped concrete structure is completed.

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Here, a plurality of the perforated cores may be formed using a perforator in step b), and the perforated cores may be pre-cut in step c) to form a concrete wall cutout for installing the hydraulic jack.

Here, in step c), a plurality of concrete wall cutting portions for installing the hydraulic jack may be formed at predetermined intervals using a wire saw cutting device or a water jet.

Here, the wire saw cutting device may include a pair of entry arms extending in parallel to each other toward the front and each having a pulley at the front end thereof; And a wire saw disposed between the front ends of the pair of entry arms across the pulley and across the entry arm and cutting the object through linear motion between the entry arms.

Here, the hydraulic jacks may be respectively inserted and installed in the concrete wall cutting portions for installation of the hydraulic jacks formed at predetermined intervals on the outer peripheral surface of the lower end of the dome-shaped concrete structure.

Here, in step d), one end of the hydraulic hose is connected to each of the hydraulic jacks, and a hydraulic pump is connected to the other end of the hydraulic hose, and the hydraulic pump is driven by the control panel.

Here, when the dome-shaped concrete structure descends in step f), it is preferable that the control panel simultaneously control each piston of the hydraulic jack to descend at the same speed.

According to the present invention, the dome-shaped concrete structure that cannot be dismantled by blasting or crushing, in particular, the nuclear power plant containment concrete structure is sequentially cut and dismantled from the lower end using a hydraulic jack and a wire saw cutting device, thereby stably dismantling the dome-shaped concrete structure. can do.

1 is a schematic configuration diagram of a general nuclear reactor containment building.
2 is a view showing a cutting system using a dry wire saw for dismantling a nuclear power plant structure according to the prior art.
3 is an operation flow diagram of the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention.
4 is a plan view and a side cross-sectional view of a dome-type concrete structure in the dismantling method of the dome-type concrete structure according to an embodiment of the present invention.
5 is a view showing the formation of a perforated core of a corresponding part after calculating hydraulic jack capacity and quantity in the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention.
6 is a view showing in detail a wire saw cutting device applied to the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention.
7 is a view showing cutting and dismantling of a concrete wall using a wire saw cutting device after forming a perforated core in the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention.
8 is a view showing installation of a hydraulic jack and a hydraulic pump in a concrete dismantling part in the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention.
9 is a view showing cutting and dismantling the side concrete walls between concrete dismantling parts using a wire saw in the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention.
10 is a view showing that the dome-shaped concrete structure is lowered by lowering the piston of the hydraulic jack in the dismantling method of the dome-shaped concrete structure according to an embodiment of the present invention.
11A to 11E are diagrams illustrating repeatedly performing steps S120 to S160 of FIG. 3, respectively.
12 is a view for explaining the final dismantling of the upper dome portion in the dismantling method of the dome-shaped concrete structure according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those of ordinary skill in the art can easily implement the present invention. However, the present invention may be implemented in various different forms and is not limited to the embodiments described herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part "includes" a certain component, it means that other components may be further included rather than excluding other components unless specifically stated to the contrary. In addition, terms such as "... unit" described in the specification mean a unit that processes at least one function or operation, which may be implemented by hardware or software or a combination of hardware and software.

[Method of dismantling dome-shaped concrete structures]

3 is an operation flow diagram of the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention.

Referring to FIG. 3, in the dismantling method of the dome-shaped concrete structure according to the embodiment of the present invention, first, the total load of the dome-shaped concrete structure 110 is calculated, and the cut position and size of the lower part of the dome-shaped concrete structure 110 are determined. It is determined (S110). Here, the dome-shaped concrete structure 110 may be a nuclear power plant containment concrete structure, but is not limited thereto.

Specifically, Figure 4 is a plan view and a side cross-sectional view of the dome-shaped concrete structure in the dismantling method of the dome-shaped concrete structure according to an embodiment of the present invention, Figure 4a) is a plan view, Figure 4b) is a side cross-sectional view, an example For example, the total load of the dome-shaped concrete structure 110 is calculated according to the design load of the dome-shaped concrete structure 110, and as shown in b) of FIG. 4, the hydraulic jack under the dome-shaped concrete structure 110 Decide the location and size of the cut-out of the concrete wall for installation.

Next, referring to FIG. 3 again, the capacity and quantity of the hydraulic jack 120 to be installed under the dome-shaped concrete structure 110 is calculated, and the perforated core 310 of the corresponding part is formed (S120).

Specifically, FIG. 5 is a view showing the formation of a perforated core of a corresponding part after calculating the hydraulic jack capacity and quantity in the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention, and FIG. 6 is a dome type according to an embodiment of the present invention. It is a drawing showing in detail the wire saw cutting device applied to the dismantling method of a concrete structure.

As shown in FIG. 5, in the dismantling method of the dome-shaped concrete structure according to the embodiment of the present invention, a plurality of the perforated cores 310 are formed using a perforator, and then, the perforated core 310 is pre-cut. It is possible to form a concrete wall cutting part 320 for installation of the hydraulic jack.

In addition, the wire saw cutting device 200 applied to the dismantling method of the dome-shaped concrete structure according to the embodiment of the present invention, as shown in FIG. 6, extends long in a parallel state toward the front and a pulley at the front end Arranged across the pulley 260 and across the entry arm 210 between the pair of entry arms (Arm: 210) each provided with 260 and the front end of the pair of entry arms 210 It is configured to include a wire saw 220 for cutting the object through a linear motion between the entry arms 210. At this time, a plurality of perforated cores 310a, 310b, 310c, 310d are formed in advance using a perforator.

A main wheel 230 is provided at the rear of the entry arm 210, and the wire saw 220 forms a closed line so that the main wheel 230 and the pair of entry arms 210 It is wound around each pulley 260. Accordingly, as the main wheel 230 rotates, the wire saw 220 moves linearly between the pulleys 260 provided at the front ends of the pair of entry arms 210.

In addition, the main wheel 230 may be configured to move forward or backward along the moving rail 240. That is, the main wheel 230 may move backward along the moving rail 240, that is, in a direction away from the entry arm 210, and on the contrary, move the moving rail 240 forward toward the entry arm 210. You can also move along. Of course, the main wheel 230 may not move and stick to its position. The entry arm 210, the wire saw 220, the main wheel 230, and the moving rail 240 may be mounted on the movable bogie 250.

Next, referring again to FIG. 3, after the formation of the perforated core 310, for example, by using a wire saw cutting device 200 or a water jet, the perforated core 310 is pre-cut to install a plurality of hydraulic jacks. To form a concrete wall cutting part 320 (S130).

Specifically, FIG. 7 is a view showing cutting and dismantling of a concrete wall using a wire saw cutting device after forming a perforated core in the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention, the wire saw cutting device 200 Alternatively, a plurality of concrete wall cutting portions 320 for installation of the hydraulic jack may be formed at predetermined intervals using a water jet.

Next, referring again to FIG. 3, the hydraulic jack 120 is inserted and installed in the concrete wall cutting part 320 for installation of the hydraulic jack, and the hydraulic pump 130 and the control panel 140 are connected (S140).

Specifically, FIG. 8 is a view showing the installation of a hydraulic jack and a hydraulic pump in a concrete dismantling part in the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention, wherein the hydraulic jack 120 is It is inserted and installed into the concrete wall cutting part 320 for installation of the hydraulic jack at predetermined intervals on the outer circumferential surface of the lower part, and at this time, one end of the hydraulic hose 150 is connected to each of the hydraulic jacks 120, and the other end of the hydraulic hose 150 A hydraulic pump 130 is connected to, and the hydraulic pump 130 is driven by the control panel 140.

Next, referring again to FIG. 3, the side dismantled concrete wall 330 between the hydraulic jack installation concrete wall cutting portions 320 is cut using a wire saw cutting device 200 or a water jet (S150).

Specifically, FIG. 9 is a view showing cutting and dismantling the side concrete wall between concrete dismantling units using a wire saw in the dismantling method of a dome-shaped concrete structure according to an embodiment of the present invention, and the concrete wall cutting unit 320 for installing the hydraulic jack ) Cut and dismantle the side dismantling concrete wall 330 between.

Next, referring to FIG. 3 again, the dome-shaped concrete structure 110 is lowered by lowering the piston of the hydraulic jack 120 (S160).

Specifically, FIG. 10 is a view showing that the dome-shaped concrete structure is lowered by lowering the piston of the hydraulic jack in the dismantling method of the dome-shaped concrete structure according to an embodiment of the present invention. When the dome-shaped concrete structure 110 is lowered, the dome-shaped concrete It is preferable that the control panel 140 simultaneously controls the pistons of the hydraulic jacks 120 to descend at the same speed so that the structure 110 does not shake.

Next, referring to FIG. 3 again, it is checked whether the dismantling of the dome-shaped concrete structure 110 is completed (S170), and steps S120 to S160 are repeatedly performed until the dismantling of the domed concrete structure 110 is completed. .

Specifically, FIGS. 11A to 11E are diagrams showing steps S120 to S160 of FIG. 3 are repeatedly performed, and FIG. 12 is a final dome portion of the upper end in the dismantling method of the dome-shaped concrete structure according to the embodiment of the present invention. It is a figure for demonstrating disassembly.

FIG. 11A shows the formation of the perforated core 310 again, and FIG. 11B is a concrete wall cutting portion for installing the hydraulic jack after forming a plurality of concrete wall cutting portions 320 for installing a plurality of hydraulic jacks by cutting the perforated core 310 again. It indicates that the hydraulic jack 120 is inserted and installed in 320, and the side dismantled concrete wall 330 between the hydraulic jack installation concrete wall cutting unit 320 is cut again using a wire saw cutting device 200 or a water jet, 11C shows that the dome-shaped concrete structure 110 is lowered again by lowering the piston of the hydraulic jack 120. In addition, FIG. 11D shows the formation of the perforated core 310 again, and FIG. 11E shows the concrete wall for installation of the hydraulic jack after forming a plurality of concrete wall cutouts 320 for installing a plurality of hydraulic jacks by cutting the perforated core 310 again. Inserting and installing the hydraulic jack 120 in the cutting part 320, and cutting the side dismantling concrete wall 330 between the concrete wall cutting part 320 for installation of the hydraulic jack again using a wire saw cutting device 200 or a water jet, etc. Show. Accordingly, as shown in FIG. 12, it is possible to finally dismantle the upper dome portion.

Next, referring again to FIG. 3, when the dismantling of the dome-shaped concrete structure 110 is completed, the cut block of the dismantled dome-shaped concrete structure is subsequently processed (S180).

Accordingly, the dome-shaped concrete structure 110 may be disassembled from the lower side while lowering the upper structure step by step.

In other words, there are various methods of dismantling concrete structures, but special attention is required for structures with special structures such as nuclear power plant containment structures and major national facilities. Consequently, according to the embodiment of the present invention, it can be applied to a nuclear power plant containment structure, a special structure, or any structure that can be dismantled while lowering the upper structure step by step by dismantling it from the bottom.

The above description of the present invention is for illustrative purposes only, and those of ordinary skill in the art to which the present invention pertains will be able to understand that other specific forms can be easily modified without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative and non-limiting in all respects. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as being distributed may also be implemented in a combined form.

The scope of the present invention is indicated by the claims to be described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be interpreted as being included in the scope of the present invention. do.

110: domed concrete structure
120: hydraulic jack 130: hydraulic pump
140: control panel 150: hydraulic hose
200: wire saw cutting device
210: entry arm 220: wire saw
230: main wheel 240: moving rail
250: mobile bogie 260: pulley
310, 310a~310d: perforated core
320: Concrete wall cutout for hydraulic jack installation
330: side dismantled concrete wall

Claims (10)

a) calculating the total load of the dome-shaped concrete structure (110), and determining a cutting position and size of the lower part of the dome-shaped concrete structure (110);
b) calculating the capacity and quantity of the hydraulic jack 120 to be installed under the dome-shaped concrete structure 110, and forming a perforated core 310 of the corresponding part;
c) forming a concrete wall cutting portion 320 for installing a plurality of hydraulic jacks by pre-cutting the perforated core 310 after forming the perforated core 310;
d) inserting and installing a hydraulic jack 120 into the concrete wall cutting part 320 for installation of the hydraulic jack, and connecting the hydraulic pump 130 and the control panel 140;
e) cutting the side dismantled concrete wall 330 between the hydraulic jack installation concrete wall cutting part 320; And
f) lowering the piston of the hydraulic jack 120 to lower the dome-shaped concrete structure 110,
The dome-shaped concrete structure 110 is dismantled from the bottom, and the upper structure is dismantled while descending step by step. The method of claim 1,
The dome-shaped concrete structure 110 is a dismantling method of a dome-shaped concrete structure, characterized in that the nuclear power plant containment concrete structure. The method of claim 1,
The dismantling method of the dome-shaped concrete structure, characterized in that the steps b) to f) are repeatedly performed until the dismantling of the dome-shaped concrete structure 110 is completed. delete The method of claim 1,
In the step b), a plurality of perforated cores 310 are formed using a perforator, and the perforated core 310 is pre-cut in step c) to form a concrete wall cutting part 320 for installation of the hydraulic jack. Dome type concrete structure dismantling method. The method of claim 5,
In the step c), a wire saw cutting device 200 or a water jet is used to form a plurality of the concrete wall cutting portions 320 for installation of the hydraulic jacks at predetermined intervals. The method of claim 6,
The wire saw cutting device 200 includes a pair of entry arms (Arm: 210) that extend long toward the front in parallel with each other and have pulleys 260 at the front ends thereof, respectively; And a wire saw disposed across the pulley 260 between the front ends of the pair of entry arms 210 and across the entry arm 210 and cuts the object through a linear motion between the entry arms 210. The dismantling method of the dome-shaped concrete structure including 220. The method of claim 1,
The hydraulic jack 120 is a dismantling method of a dome-shaped concrete structure, characterized in that each inserted into the concrete wall cutting portion 320 for installation of the hydraulic jack formed at predetermined intervals on the outer peripheral surface of the lower end of the dome-shaped concrete structure (110). The method of claim 8,
In step d), one end of the hydraulic hose 150 is connected to each of the hydraulic jacks 120, and a hydraulic pump 130 is connected to the other end of the hydraulic hose 150, and the hydraulic pump 130 is the control The dismantling method of the dome-shaped concrete structure, characterized in that the drive is controlled by the panel 140. The method of claim 7,
When the dome-shaped concrete structure 110 descends in step f), the control panel 140 simultaneously controls each of the pistons of the hydraulic jack 120 to descend at the same speed.

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